well construction technology

well construction technology

1. технология строительства скважин

 

технология строительства скважин
—
[ http://slovarionline.ru/anglo_russkiy_slovar_neftegazovoy_promyishlennosti/]

Тематики

• нефтегазовая промышленность

EN

• well construction technology

well construction technology

технология строительства скважин

well construction technology

технология строительства скважин

* * *

технология строительства скважин

well construction technology

Нефть: технология строительства скважин

technology

1. технология

2. специальная терминология

— applied drilling technology

— water technology

* * *

1. технология; технические приёмы

2. техника; технические средства; методика

combined water-jetting and slurry-pumping technology — комбинированная водоструйная и пульпоперекачная технология (разработки месторождения)

polycrystalline diamond composite bit technology — технология составных поликристаллических алмазных долот

water jet boring-and-reaming technology — технология скважинной гидродобычи

— commercially demonstrated technology

— standards technology

— technology of diagnosis

* * *

1) технология; технические приёмы

2) техника; технические средства; методика

•

- technology of diagnosis

- applied drilling technology
- combined water-jetting and slurry-pumping technology
- commercially demonstrated technology
- coring technology
- deep-well drilling technology
- drilling technology
- drilling-in technology
- drilling-mud technology
- electrical exploration technology
- exploration technology
- fault location technology
- gas production technology
- integrally designed logging technology
- logging technology
- marine pipe-laying technology
- offshore technology
- oil production technology
- pipeline construction technology
- polycrystalline diamond composite bit technology
- seismic technology
- seismic exploration technology
- standards technology
- water technology
- water-jet boring-and-reaming technology
- water-jetting technology
- well construction technology
- well servicing technology
- well workover technology

* * *

технические приемы

технология строительства скважин

well construction technology

plan

plan [plæn]

1. noun

   a. ( = drawing, map) plan m

   b. ( = project) plan m, projet m

• her plan for union reform son projet de réforme syndicale

• plan of action plan m d'action

• development plan plan m de développement

• to draw up a plan dresser un plan

• everything is going according to plan tout se passe comme prévu

• to make plans faire des projets

• to upset or spoil sb's plans déranger les projets de qn

• to change one's plans changer d'idée

• the best plan would be to leave tomorrow afternoon le mieux serait de partir demain après-midi

• what plans do you have for the holidays? quels sont vos projets pour les vacances ?

• I haven't any particular plans je n'ai aucun projet précis

• have you got any plans for tonight? est-ce que vous avez prévu quelque chose pour ce soir ?

• there are plans to modernize the building il est prévu de moderniser l'immeuble

• the government said they had no plans to increase taxes le gouvernement a dit qu'il n'avait pas l'intention d'augmenter les impôts

2. transitive verb

   a. ( = devise and schedule) planifier

   b. ( = make plans for) [+ holiday, journey, crime] préparer à l'avance ; [+ essay] faire le plan de ; [+ campaign, attack] organiser

• a well-planned house une maison bien conçue

• to plan one's day organiser sa journée

• they planned the attack together ils ont préparé l'attaque ensemble

• he has got it all planned il a tout prévu

• couples can now plan their families les couples peuvent aujourd'hui choisir quand avoir des enfants

   c. ( = have in mind) avoir l'intention de

• to plan to do sth avoir l'intention de faire qch

• how long do you plan to be away? combien de temps avez-vous l'intention de vous absenter ?

3. intransitive verb

faire des projets

• we are planning for the future nous faisons des projets pour l'avenir

• one has to plan months ahead il faut s'y prendre des mois à l'avance

► plan on inseparable transitive verb

( = intend)

to plan on doing sth avoir l'intention de faire qch

* * *

[plæn] 1.

noun

1) (scheme, course of action) plan m

the plan is to leave very early — nous avons prévu de partir très tôt

to go according to plan — se passer comme prévu

2) ( definite aim) projet m ( for de; to do pour faire)

to have a plan to do — projeter de faire

3) (outline, map) also Architecture, Construction, Technology plan m

2.

plans plural noun

1) ( arrangements) projets mpl

what are your plans for the future? — quels sont vos projets d'avenir?

to make plans for something — ( organize arrangements) organiser quelque chose; ( envisage) projeter quelque chose

I have no particular plans — ( for tonight) je n'ai rien de prévu; ( for the future) je n'ai pas de projets bien déterminés

but Paul had other plans — mais Paul avait prévu autre chose

2) Architecture, Construction

the plans — les plans mpl

3.

transitive verb (p prés etc - nn-)

1) (prepare, organize) planifier [future, economy]; organiser, préparer [timetable, meeting, expedition]; préparer [retirement]; organiser [day]; faire un plan de [career]; faire le plan de [essay, book]; préméditer [crime]

he planned it so he could leave early — il s'est organisé pour pouvoir partir tôt

to plan a family — planifier les naissances

2) (intend, propose) projeter [visit, trip]; prévoir [new development, factory]

to plan to do — projeter de faire

3) Architecture, Construction ( design) concevoir [kitchen, garden, city centre]

4.

intransitive verb (p prés - nn-) prévoir

to plan on doing/on something — ( expect) s'attendre à faire/à quelque chose; ( intend) compter faire/sur quelque chose

Phrasal Verbs:

- plan ahead

hang

hang [hæŋ]

(preterite, past participle hung)

1. transitive verb

   a. [+ lamp, curtains, decorations, painting] accrocher ; [+ wallpaper] poser

• to hang clothes on the line étendre du linge

• to hang one's head baisser la tête

• the trees were hung with lights les arbres étaient décorés de lumières

   b. (preterite, past participle hanged) [+ criminal] pendre

• he was hanged for murder il a été pendu pour meurtre

• he hanged himself il s'est pendu

2. intransitive verb

   a. [rope, dangling object] pendre (on, from à)

• a suit that hangs well un costume qui tombe bien

• a picture hanging on the wall un tableau accroché au mur

• to hang out of the window [person] se pencher par la fenêtre ; [thing] pendre à la fenêtre

   b. ( = hover) fog hung over the valley un brouillard planait sur la vallée

• the threat of unemployment hangs over us la menace du chômage pèse sur nous

• the question was left hanging in the air la question est restée en suspens

• time hung heavy on his hands il trouvait le temps long

   c. [criminal] être pendu

• he'll hang for it cela lui vaudra la corde

3. noun

• to get the hang of (inf) ( = understand) comprendre

• to get the hang of doing sth attraper le coup (inf) pour faire qch

• you'll soon get the hang of it tu auras vite fait de t'y mettre

• she's getting the hang of her new job elle commence à s'habituer à son nouveau travail

4. compounds

► hang-glider noun deltaplane ® m

► hang-gliding noun deltaplane ® m

• to go hang-gliding faire du deltaplane ® ► hang-up (inf) noun

( = complex) complexe m ( about à cause de)

• to have sexual hang-ups avoir des blocages (sexuels)

► hang about, hang around

1. intransitive verb

( = loiter) traîner ; ( = wait) attendre

• he's always hanging about here il est toujours à traîner par ici

• he got sick of hanging around waiting for me il en a eu marre (inf) de m'attendre

• they always hang around together ils sont toujours ensemble

• to keep sb hanging about faire attendre qn

• hang about! (inf) attends !

2. inseparable transitive verb

• the crowd who hung around the cafe les habitués du café

► hang back intransitive verb

(when walking) rester en arrière

• she hung back from suggesting this elle hésitait à le proposer► hang down intransitive verb pendre

► hang in (inf) intransitive verb s'accrocher

• hang in there, Bill, you're going to make it accroche-toi, Bill, tu vas y arriver► hang on

1. intransitive verb

   a. ( = wait) (inf) attendre

• hang on! attendez ! ; (on phone) ne quittez pas !

• hang on, I didn't say that! attends un peu, ce n'est pas ce que j'ai dit !

   b. ( = hold out) tenir bon

• he managed to hang on till help came il réussit à tenir bon jusqu'à l'arrivée des secours

   c. to hang on to sth ( = cling on to) se cramponner à qch ; ( = look after) (inf) garder qch

2. inseparable transitive verb

   a. se cramponner à

• to hang on sb's arm se cramponner au bras de qn

• to hang on sb's every word boire les paroles de qn

   b. ( = depend on) dépendre de

• everything hangs on his decision tout dépend de sa décision

► hang out

1. intransitive verb

   a. [tongue] pendre

• your shirt's hanging out ta chemise pend

• let it all hang out! (inf!) défoulez-vous !

   b. ( = live) (inf) crécher (inf !)

2. separable transitive verb

[+ washing] étendre (dehors)

► hang together intransitive verb

[argument, story] se tenir ; [statements] s'accorder

► hang up

1. intransitive verb

(on telephone) raccrocher

• to hang up on sb raccrocher au nez de qn

2. separable transitive verb

[+ hat, picture] accrocher (on à, sur)

* * *

[hæŋ] 1.

noun

1) ( of garment) tombant m

2) (colloq) ( knack)

to get the hang of something (colloq)/of doing (colloq) — piger (colloq) quelque chose/comment faire

you're getting the hang of it — tu as pigé (colloq)

2.

transitive verb (prét, pp hung)

1) ( suspend) (from projection, hook, coat-hanger) accrocher ( from à; by par; on à); (from string, rope) suspendre ( from à); ( drape over) étendre, mettre ( over sur); ( peg up) étendre [washing] (on sur)

2) (also hang down) ( let dangle) suspendre [rope, line etc] ( out of par); laisser pendre [arm, leg]

to hang one's head in shame — baisser la tête de honte

3) ( decorate with)

to be hung with — être orné de [flags, tapestries]; être décoré de [garlands]

4) ( interior decorating) poser [wallpaper]

5) Construction, Technology poser [door, gate]

6) (prét, pp hanged) pendre [criminal, victim]

3.

intransitive verb (prét, pp hung)

1) ( be suspended) ( on hook) être accroché; ( from height) être suspendu; ( on washing line) être étendu; [arm, leg] pendre

her arm hung over the arm of the chair — son bras pendait de l'accoudoir

my feet hang over the end — mes pieds dépassent

the children were hanging out of the window — les enfants se penchaient à la fenêtre

2) ( drape) [curtain, garment] tomber

3) ( float) [fog, cloud, smoke, smell] flotter

4) ( die) être pendu ( for pour)

4.

reflexive verb (prét, pp hanged)

to hang oneself — se pendre ( from à)

Phrasal Verbs:

- hang around

- hang back

- hang down

- hang on

- hang on to

- hang out

- hang over

- hang together

- hang up

••

hang the expense! — (colloq) au diable la dépense!

hanged if I know! — (colloq) je n'en sais fichtre rien! (colloq)

to let it all hang out — (colloq) être relax (colloq); sheep

modular data center

1. модульный центр обработки данных (ЦОД)

 

модульный центр обработки данных (ЦОД)
-
[Интент]

Параллельные тексты EN-RU

[ http://loosebolts.wordpress.com/2008/12/02/our-vision-for-generation-4-modular-data-centers-one-way-of-getting-it-just-right/]

[ http://dcnt.ru/?p=9299#more-9299]

Data Centers are a hot topic these days. No matter where you look, this once obscure aspect of infrastructure is getting a lot of attention. For years, there have been cost pressures on IT operations and this, when the need for modern capacity is greater than ever, has thrust data centers into the spotlight. Server and rack density continues to rise, placing DC professionals and businesses in tighter and tougher situations while they struggle to manage their IT environments. And now hyper-scale cloud infrastructure is taking traditional technologies to limits never explored before and focusing the imagination of the IT industry on new possibilities.

В настоящее время центры обработки данных являются широко обсуждаемой темой. Куда ни посмотришь, этот некогда малоизвестный аспект инфраструктуры привлекает все больше внимания. Годами ИТ-отделы испытывали нехватку средств и это выдвинуло ЦОДы в центр внимания, в то время, когда необходимость в современных ЦОДах стала как никогда высокой. Плотность серверов и стоек продолжают расти, все больше усложняя ситуацию для специалистов в области охлаждения и организаций в их попытках управлять своими ИТ-средами. И теперь гипермасштабируемая облачная инфраструктура подвергает традиционные технологии невиданным ранее нагрузкам, и заставляет ИТ-индустрию искать новые возможности.

At Microsoft, we have focused a lot of thought and research around how to best operate and maintain our global infrastructure and we want to share those learnings. While obviously there are some aspects that we keep to ourselves, we have shared how we operate facilities daily, our technologies and methodologies, and, most importantly, how we monitor and manage our facilities. Whether it’s speaking at industry events, inviting customers to our “Microsoft data center conferences” held in our data centers, or through other media like blogging and white papers, we believe sharing best practices is paramount and will drive the industry forward. So in that vein, we have some interesting news to share.

В компании MicroSoft уделяют большое внимание изучению наилучших методов эксплуатации и технического обслуживания своей глобальной инфраструктуры и делятся результатами своих исследований. И хотя мы, конечно, не раскрываем некоторые аспекты своих исследований, мы делимся повседневным опытом эксплуатации дата-центров, своими технологиями и методологиями и, что важнее всего, методами контроля и управления своими объектами. Будь то доклады на отраслевых событиях, приглашение клиентов на наши конференции, которые посвящены центрам обработки данных MicroSoft, и проводятся в этих самых дата-центрах, или использование других средств, например, блоги и спецификации, мы уверены, что обмен передовым опытом имеет первостепенное значение и будет продвигать отрасль вперед.

Today we are sharing our Generation 4 Modular Data Center plan. This is our vision and will be the foundation of our cloud data center infrastructure in the next five years. We believe it is one of the most revolutionary changes to happen to data centers in the last 30 years. Joining me, in writing this blog are Daniel Costello, my director of Data Center Research and Engineering and Christian Belady, principal power and cooling architect. I feel their voices will add significant value to driving understanding around the many benefits included in this new design paradigm.

Сейчас мы хотим поделиться своим планом модульного дата-центра четвертого поколения. Это наше видение и оно будет основанием для инфраструктуры наших облачных дата-центров в ближайшие пять лет. Мы считаем, что это одно из самых революционных изменений в дата-центрах за последние 30 лет. Вместе со мной в написании этого блога участвовали Дэниел Костелло, директор по исследованиям и инжинирингу дата-центров, и Кристиан Белади, главный архитектор систем энергоснабжения и охлаждения. Мне кажется, что их авторитет придаст больше веса большому количеству преимуществ, включенных в эту новую парадигму проектирования.

Our “Gen 4” modular data centers will take the flexibility of containerized servers—like those in our Chicago data center—and apply it across the entire facility. So what do we mean by modular? Think of it like “building blocks”, where the data center will be composed of modular units of prefabricated mechanical, electrical, security components, etc., in addition to containerized servers.

Was there a key driver for the Generation 4 Data Center?

Наши модульные дата-центры “Gen 4” будут гибкими с контейнерами серверов – как серверы в нашем чикагском дата-центре. И гибкость будет применяться ко всему ЦОД. Итак, что мы подразумеваем под модульностью? Мы думаем о ней как о “строительных блоках”, где дата-центр будет состоять из модульных блоков изготовленных в заводских условиях электрических систем и систем охлаждения, а также систем безопасности и т.п., в дополнение к контейнеризованным серверам.
Был ли ключевой стимул для разработки дата-центра четвертого поколения?

If we were to summarize the promise of our Gen 4 design into a single sentence it would be something like this: “A highly modular, scalable, efficient, just-in-time data center capacity program that can be delivered anywhere in the world very quickly and cheaply, while allowing for continued growth as required.” Sounds too good to be true, doesn’t it? Well, keep in mind that these concepts have been in initial development and prototyping for over a year and are based on cumulative knowledge of previous facility generations and the advances we have made since we began our investments in earnest on this new design.

Если бы нам нужно было обобщить достоинства нашего проекта Gen 4 в одном предложении, это выглядело бы следующим образом: “Центр обработки данных с высоким уровнем модульности, расширяемости, и энергетической эффективности, а также возможностью постоянного расширения, в случае необходимости, который можно очень быстро и дешево развертывать в любом месте мира”. Звучит слишком хорошо для того чтобы быть правдой, не так ли? Ну, не забывайте, что эти концепции находились в процессе начальной разработки и создания опытного образца в течение более одного года и основываются на опыте, накопленном в ходе развития предыдущих поколений ЦОД, а также успехах, сделанных нами со времени, когда мы начали вкладывать серьезные средства в этот новый проект.

One of the biggest challenges we’ve had at Microsoft is something Mike likes to call the ‘Goldilock’s Problem’. In a nutshell, the problem can be stated as:

The worst thing we can do in delivering facilities for the business is not have enough capacity online, thus limiting the growth of our products and services.

Одну из самых больших проблем, с которыми приходилось сталкиваться Майкрософт, Майк любит называть ‘Проблемой Лютика’. Вкратце, эту проблему можно выразить следующим образом:

Самое худшее, что может быть при строительстве ЦОД для бизнеса, это не располагать достаточными производственными мощностями, и тем самым ограничивать рост наших продуктов и сервисов.

The second worst thing we can do in delivering facilities for the business is to have too much capacity online.

А вторым самым худшим моментом в этой сфере может слишком большое количество производственных мощностей.

This has led to a focus on smart, intelligent growth for the business — refining our overall demand picture. It can’t be too hot. It can’t be too cold. It has to be ‘Just Right!’ The capital dollars of investment are too large to make without long term planning. As we struggled to master these interesting challenges, we had to ensure that our technological plan also included solutions for the business and operational challenges we faced as well.
So let’s take a high level look at our Generation 4 design

Это заставило нас сосредоточиваться на интеллектуальном росте для бизнеса — refining our overall demand picture. Это не должно быть слишком горячим. И это не должно быть слишком холодным. Это должно быть ‘как раз, таким как надо!’ Нельзя делать такие большие капиталовложения без долгосрочного планирования. Пока мы старались решить эти интересные проблемы, мы должны были гарантировать, что наш технологический план будет также включать решения для коммерческих и эксплуатационных проблем, с которыми нам также приходилось сталкиваться.
Давайте рассмотрим наш проект дата-центра четвертого поколения

Are you ready for some great visuals? Check out this video at Soapbox. Click here for the Microsoft 4th Gen Video.

It’s a concept video that came out of my Data Center Research and Engineering team, under Daniel Costello, that will give you a view into what we think is the future.

From a configuration, construct-ability and time to market perspective, our primary goals and objectives are to modularize the whole data center. Not just the server side (like the Chicago facility), but the mechanical and electrical space as well. This means using the same kind of parts in pre-manufactured modules, the ability to use containers, skids, or rack-based deployments and the ability to tailor the Redundancy and Reliability requirements to the application at a very specific level.

Посмотрите это видео, перейдите по ссылке для просмотра видео о Microsoft 4th Gen:

Это концептуальное видео, созданное командой отдела Data Center Research and Engineering, возглавляемого Дэниелом Костелло, которое даст вам наше представление о будущем.

С точки зрения конфигурации, строительной технологичности и времени вывода на рынок, нашими главными целями и задачами агрегатирование всего дата-центра. Не только серверную часть, как дата-центр в Чикаго, но также системы охлаждения и электрические системы. Это означает применение деталей одного типа в сборных модулях, возможность использования контейнеров, салазок, или стоечных систем, а также возможность подстраивать требования избыточности и надежности для данного приложения на очень специфичном уровне.

Our goals from a cost perspective were simple in concept but tough to deliver. First and foremost, we had to reduce the capital cost per critical Mega Watt by the class of use. Some applications can run with N-level redundancy in the infrastructure, others require a little more infrastructure for support. These different classes of infrastructure requirements meant that optimizing for all cost classes was paramount. At Microsoft, we are not a one trick pony and have many Online products and services (240+) that require different levels of operational support. We understand that and ensured that we addressed it in our design which will allow us to reduce capital costs by 20%-40% or greater depending upon class.

Нашими целями в области затрат были концептуально простыми, но трудно реализуемыми. В первую очередь мы должны были снизить капитальные затраты в пересчете на один мегаватт, в зависимости от класса резервирования. Некоторые приложения могут вполне работать на базе инфраструктуры с резервированием на уровне N, то есть без резервирования, а для работы других приложений требуется больше инфраструктуры. Эти разные классы требований инфраструктуры подразумевали, что оптимизация всех классов затрат имеет преобладающее значение. В Майкрософт мы не ограничиваемся одним решением и располагаем большим количеством интерактивных продуктов и сервисов (240+), которым требуются разные уровни эксплуатационной поддержки. Мы понимаем это, и учитываем это в своем проекте, который позволит нам сокращать капитальные затраты на 20%-40% или более в зависимости от класса.

For example, non-critical or geo redundant applications have low hardware reliability requirements on a location basis. As a result, Gen 4 can be configured to provide stripped down, low-cost infrastructure with little or no redundancy and/or temperature control. Let’s say an Online service team decides that due to the dramatically lower cost, they will simply use uncontrolled outside air with temperatures ranging 10-35 C and 20-80% RH. The reality is we are already spec-ing this for all of our servers today and working with server vendors to broaden that range even further as Gen 4 becomes a reality. For this class of infrastructure, we eliminate generators, chillers, UPSs, and possibly lower costs relative to traditional infrastructure.

Например, некритичные или гео-избыточные системы имеют низкие требования к аппаратной надежности на основе местоположения. В результате этого, Gen 4 можно конфигурировать для упрощенной, недорогой инфраструктуры с низким уровнем (или вообще без резервирования) резервирования и / или температурного контроля. Скажем, команда интерактивного сервиса решает, что, в связи с намного меньшими затратами, они будут просто использовать некондиционированный наружный воздух с температурой 10-35°C и влажностью 20-80% RH. В реальности мы уже сегодня предъявляем эти требования к своим серверам и работаем с поставщиками серверов над еще большим расширением диапазона температур, так как наш модуль и подход Gen 4 становится реальностью. Для подобного класса инфраструктуры мы удаляем генераторы, чиллеры, ИБП, и, возможно, будем предлагать более низкие затраты, по сравнению с традиционной инфраструктурой.

Applications that demand higher level of redundancy or temperature control will use configurations of Gen 4 to meet those needs, however, they will also cost more (but still less than traditional data centers). We see this cost difference driving engineering behavioral change in that we predict more applications will drive towards Geo redundancy to lower costs.

Системы, которым требуется более высокий уровень резервирования или температурного контроля, будут использовать конфигурации Gen 4, отвечающие этим требованиям, однако, они будут также стоить больше. Но все равно они будут стоить меньше, чем традиционные дата-центры. Мы предвидим, что эти различия в затратах будут вызывать изменения в методах инжиниринга, и по нашим прогнозам, это будет выражаться в переходе все большего числа систем на гео-избыточность и меньшие затраты.

Another cool thing about Gen 4 is that it allows us to deploy capacity when our demand dictates it. Once finalized, we will no longer need to make large upfront investments. Imagine driving capital costs more closely in-line with actual demand, thus greatly reducing time-to-market and adding the capacity Online inherent in the design. Also reduced is the amount of construction labor required to put these “building blocks” together. Since the entire platform requires pre-manufacture of its core components, on-site construction costs are lowered. This allows us to maximize our return on invested capital.

Еще одно достоинство Gen 4 состоит в том, что он позволяет нам разворачивать дополнительные мощности, когда нам это необходимо. Как только мы закончим проект, нам больше не нужно будет делать большие начальные капиталовложения. Представьте себе возможность более точного согласования капитальных затрат с реальными требованиями, и тем самым значительного снижения времени вывода на рынок и интерактивного добавления мощностей, предусматриваемого проектом. Также снижен объем строительных работ, требуемых для сборки этих “строительных блоков”. Поскольку вся платформа требует предварительного изготовления ее базовых компонентов, затраты на сборку также снижены. Это позволит нам увеличить до максимума окупаемость своих капиталовложений.
Мы все подвергаем сомнению

In our design process, we questioned everything. You may notice there is no roof and some might be uncomfortable with this. We explored the need of one and throughout our research we got some surprising (positive) results that showed one wasn’t needed.

В своем процессе проектирования мы все подвергаем сомнению. Вы, наверное, обратили внимание на отсутствие крыши, и некоторым специалистам это могло не понравиться. Мы изучили необходимость в крыше и в ходе своих исследований получили удивительные результаты, которые показали, что крыша не нужна.
Серийное производство дата центров

In short, we are striving to bring Henry Ford’s Model T factory to the data center. http://en.wikipedia.org/wiki/Henry_Ford#Model_T. Gen 4 will move data centers from a custom design and build model to a commoditized manufacturing approach. We intend to have our components built in factories and then assemble them in one location (the data center site) very quickly. Think about how a computer, car or plane is built today. Components are manufactured by different companies all over the world to a predefined spec and then integrated in one location based on demands and feature requirements. And just like Henry Ford’s assembly line drove the cost of building and the time-to-market down dramatically for the automobile industry, we expect Gen 4 to do the same for data centers. Everything will be pre-manufactured and assembled on the pad.

Мы хотим применить модель автомобильной фабрики Генри Форда к дата-центру. Проект Gen 4 будет способствовать переходу от модели специализированного проектирования и строительства к товарно-производственному, серийному подходу. Мы намерены изготавливать свои компоненты на заводах, а затем очень быстро собирать их в одном месте, в месте строительства дата-центра. Подумайте о том, как сегодня изготавливается компьютер, автомобиль или самолет. Компоненты изготавливаются по заранее определенным спецификациям разными компаниями во всем мире, затем собираются в одном месте на основе спроса и требуемых характеристик. И точно так же как сборочный конвейер Генри Форда привел к значительному уменьшению затрат на производство и времени вывода на рынок в автомобильной промышленности, мы надеемся, что Gen 4 сделает то же самое для дата-центров. Все будет предварительно изготавливаться и собираться на месте.
Невероятно энергоэффективный ЦОД

And did we mention that this platform will be, overall, incredibly energy efficient? From a total energy perspective not only will we have remarkable PUE values, but the total cost of energy going into the facility will be greatly reduced as well. How much energy goes into making concrete? Will we need as much of it? How much energy goes into the fuel of the construction vehicles? This will also be greatly reduced! A key driver is our goal to achieve an average PUE at or below 1.125 by 2012 across our data centers. More than that, we are on a mission to reduce the overall amount of copper and water used in these facilities. We believe these will be the next areas of industry attention when and if the energy problem is solved. So we are asking today…“how can we build a data center with less building”?

А мы упоминали, что эта платформа будет, в общем, невероятно энергоэффективной? С точки зрения общей энергии, мы получим не только поразительные значения PUE, но общая стоимость энергии, затраченной на объект будет также значительно снижена. Сколько энергии идет на производство бетона? Нам нужно будет столько энергии? Сколько энергии идет на питание инженерных строительных машин? Это тоже будет значительно снижено! Главным стимулом является достижение среднего PUE не больше 1.125 для всех наших дата-центров к 2012 году. Более того, у нас есть задача сокращения общего количества меди и воды в дата-центрах. Мы думаем, что эти задачи станут следующей заботой отрасли после того как будет решена энергетическая проблема. Итак, сегодня мы спрашиваем себя…“как можно построить дата-центр с меньшим объемом строительных работ”?
Строительство дата центров без чиллеров

We have talked openly and publicly about building chiller-less data centers and running our facilities using aggressive outside economization. Our sincerest hope is that Gen 4 will completely eliminate the use of water. Today’s data centers use massive amounts of water and we see water as the next scarce resource and have decided to take a proactive stance on making water conservation part of our plan.

Мы открыто и публично говорили о строительстве дата-центров без чиллеров и активном использовании в наших центрах обработки данных технологий свободного охлаждения или фрикулинга. Мы искренне надеемся, что Gen 4 позволит полностью отказаться от использования воды. Современные дата-центры расходуют большие объемы воды и так как мы считаем воду следующим редким ресурсом, мы решили принять упреждающие меры и включить экономию воды в свой план.

By sharing this with the industry, we believe everyone can benefit from our methodology. While this concept and approach may be intimidating (or downright frightening) to some in the industry, disclosure ultimately is better for all of us.

Делясь этим опытом с отраслью, мы считаем, что каждый сможет извлечь выгоду из нашей методологией. Хотя эта концепция и подход могут показаться пугающими (или откровенно страшными) для некоторых отраслевых специалистов, раскрывая свои планы мы, в конечном счете, делаем лучше для всех нас.

Gen 4 design (even more than just containers), could reduce the ‘religious’ debates in our industry. With the central spine infrastructure in place, containers or pre-manufactured server halls can be either AC or DC, air-side economized or water-side economized, or not economized at all (though the sanity of that might be questioned). Gen 4 will allow us to decommission, repair and upgrade quickly because everything is modular. No longer will we be governed by the initial decisions made when constructing the facility. We will have almost unlimited use and re-use of the facility and site. We will also be able to use power in an ultra-fluid fashion moving load from critical to non-critical as use and capacity requirements dictate.

Проект Gen 4 позволит уменьшить ‘религиозные’ споры в нашей отрасли. Располагая базовой инфраструктурой, контейнеры или сборные серверные могут оборудоваться системами переменного или постоянного тока, воздушными или водяными экономайзерами, или вообще не использовать экономайзеры. Хотя можно подвергать сомнению разумность такого решения. Gen 4 позволит нам быстро выполнять работы по выводу из эксплуатации, ремонту и модернизации, поскольку все будет модульным. Мы больше не будем руководствоваться начальными решениями, принятыми во время строительства дата-центра. Мы сможем использовать этот дата-центр и инфраструктуру в течение почти неограниченного периода времени. Мы также сможем применять сверхгибкие методы использования электрической энергии, переводя оборудование в режимы критической или некритической нагрузки в соответствии с требуемой мощностью.
Gen 4 – это стандартная платформа

Finally, we believe this is a big game changer. Gen 4 will provide a standard platform that our industry can innovate around. For example, all modules in our Gen 4 will have common interfaces clearly defined by our specs and any vendor that meets these specifications will be able to plug into our infrastructure. Whether you are a computer vendor, UPS vendor, generator vendor, etc., you will be able to plug and play into our infrastructure. This means we can also source anyone, anywhere on the globe to minimize costs and maximize performance. We want to help motivate the industry to further innovate—with innovations from which everyone can reap the benefits.

Наконец, мы уверены, что это будет фактором, который значительно изменит ситуацию. Gen 4 будет представлять собой стандартную платформу, которую отрасль сможет обновлять. Например, все модули в нашем Gen 4 будут иметь общепринятые интерфейсы, четко определяемые нашими спецификациями, и оборудование любого поставщика, которое отвечает этим спецификациям можно будет включать в нашу инфраструктуру. Независимо от того производите вы компьютеры, ИБП, генераторы и т.п., вы сможете включать свое оборудование нашу инфраструктуру. Это означает, что мы также сможем обеспечивать всех, в любом месте земного шара, тем самым сводя до минимума затраты и максимальной увеличивая производительность. Мы хотим создать в отрасли мотивацию для дальнейших инноваций – инноваций, от которых каждый сможет получать выгоду.
Главные характеристики дата-центров четвертого поколения Gen4

To summarize, the key characteristics of our Generation 4 data centers are:

Scalable
Plug-and-play spine infrastructure
Factory pre-assembled: Pre-Assembled Containers (PACs) & Pre-Manufactured Buildings (PMBs)
Rapid deployment
De-mountable
Reduce TTM
Reduced construction
Sustainable measures

Ниже приведены главные характеристики дата-центров четвертого поколения Gen 4:

Расширяемость;
Готовая к использованию базовая инфраструктура;
Изготовление в заводских условиях: сборные контейнеры (PAC) и сборные здания (PMB);
Быстрота развертывания;
Возможность демонтажа;
Снижение времени вывода на рынок (TTM);
Сокращение сроков строительства;
Экологичность;

Map applications to DC Class

We hope you join us on this incredible journey of change and innovation!

Long hours of research and engineering time are invested into this process. There are still some long days and nights ahead, but the vision is clear. Rest assured however, that we as refine Generation 4, the team will soon be looking to Generation 5 (even if it is a bit farther out). There is always room to get better.

Использование систем электропитания постоянного тока.

Мы надеемся, что вы присоединитесь к нам в этом невероятном путешествии по миру изменений и инноваций!

На этот проект уже потрачены долгие часы исследований и проектирования. И еще предстоит потратить много дней и ночей, но мы имеем четкое представление о конечной цели. Однако будьте уверены, что как только мы доведем до конца проект модульного дата-центра четвертого поколения, мы вскоре начнем думать о проекте дата-центра пятого поколения. Всегда есть возможность для улучшений.

So if you happen to come across Goldilocks in the forest, and you are curious as to why she is smiling you will know that she feels very good about getting very close to ‘JUST RIGHT’.

Generations of Evolution – some background on our data center designs

Так что, если вы встретите в лесу девочку по имени Лютик, и вам станет любопытно, почему она улыбается, вы будете знать, что она очень довольна тем, что очень близко подошла к ‘ОПИМАЛЬНОМУ РЕШЕНИЮ’.
Поколения эволюции – история развития наших дата-центров

We thought you might be interested in understanding what happened in the first three generations of our data center designs. When Ray Ozzie wrote his Software plus Services memo it posed a very interesting challenge to us. The winds of change were at ‘tornado’ proportions. That “plus Services” tag had some significant (and unstated) challenges inherent to it. The first was that Microsoft was going to evolve even further into an operations company. While we had been running large scale Internet services since 1995, this development lead us to an entirely new level. Additionally, these “services” would span across both Internet and Enterprise businesses. To those of you who have to operate “stuff”, you know that these are two very different worlds in operational models and challenges. It also meant that, to achieve the same level of reliability and performance required our infrastructure was going to have to scale globally and in a significant way.

Мы подумали, что может быть вам будет интересно узнать историю первых трех поколений наших центров обработки данных. Когда Рэй Оззи написал свою памятную записку Software plus Services, он поставил перед нами очень интересную задачу. Ветра перемен двигались с ураганной скоростью. Это окончание “plus Services” скрывало в себе какие-то значительные и неопределенные задачи. Первая заключалась в том, что Майкрософт собиралась в еще большей степени стать операционной компанией. Несмотря на то, что мы управляли большими интернет-сервисами, начиная с 1995 г., эта разработка подняла нас на абсолютно новый уровень. Кроме того, эти “сервисы” охватывали интернет-компании и корпорации. Тем, кому приходится всем этим управлять, известно, что есть два очень разных мира в области операционных моделей и задач. Это также означало, что для достижения такого же уровня надежности и производительности требовалось, чтобы наша инфраструктура располагала значительными возможностями расширения в глобальных масштабах.

It was that intense atmosphere of change that we first started re-evaluating data center technology and processes in general and our ideas began to reach farther than what was accepted by the industry at large. This was the era of Generation 1. As we look at where most of the world’s data centers are today (and where our facilities were), it represented all the known learning and design requirements that had been in place since IBM built the first purpose-built computer room. These facilities focused more around uptime, reliability and redundancy. Big infrastructure was held accountable to solve all potential environmental shortfalls. This is where the majority of infrastructure in the industry still is today.

Именно в этой атмосфере серьезных изменений мы впервые начали переоценку ЦОД-технологий и технологий вообще, и наши идеи начали выходить за пределы общепринятых в отрасли представлений. Это была эпоха ЦОД первого поколения. Когда мы узнали, где сегодня располагается большинство мировых дата-центров и где находятся наши предприятия, это представляло весь опыт и навыки проектирования, накопленные со времени, когда IBM построила первую серверную. В этих ЦОД больше внимания уделялось бесперебойной работе, надежности и резервированию. Большая инфраструктура была призвана решать все потенциальные экологические проблемы. Сегодня большая часть инфраструктуры все еще находится на этом этапе своего развития.

We soon realized that traditional data centers were quickly becoming outdated. They were not keeping up with the demands of what was happening technologically and environmentally. That’s when we kicked off our Generation 2 design. Gen 2 facilities started taking into account sustainability, energy efficiency, and really looking at the total cost of energy and operations.

Очень быстро мы поняли, что стандартные дата-центры очень быстро становятся устаревшими. Они не поспевали за темпами изменений технологических и экологических требований. Именно тогда мы стали разрабатывать ЦОД второго поколения. В этих дата-центрах Gen 2 стали принимать во внимание такие факторы как устойчивое развитие, энергетическая эффективность, а также общие энергетические и эксплуатационные.

No longer did we view data centers just for the upfront capital costs, but we took a hard look at the facility over the course of its life. Our Quincy, Washington and San Antonio, Texas facilities are examples of our Gen 2 data centers where we explored and implemented new ways to lessen the impact on the environment. These facilities are considered two leading industry examples, based on their energy efficiency and ability to run and operate at new levels of scale and performance by leveraging clean hydro power (Quincy) and recycled waste water (San Antonio) to cool the facility during peak cooling months.

Мы больше не рассматривали дата-центры только с точки зрения начальных капитальных затрат, а внимательно следили за работой ЦОД на протяжении его срока службы. Наши объекты в Куинси, Вашингтоне, и Сан-Антонио, Техас, являются образцами наших ЦОД второго поколения, в которых мы изучали и применяли на практике новые способы снижения воздействия на окружающую среду. Эти объекты считаются двумя ведущими отраслевыми примерами, исходя из их энергетической эффективности и способности работать на новых уровнях производительности, основанных на использовании чистой энергии воды (Куинси) и рециклирования отработанной воды (Сан-Антонио) для охлаждения объекта в самых жарких месяцах.

As we were delivering our Gen 2 facilities into steel and concrete, our Generation 3 facilities were rapidly driving the evolution of the program. The key concepts for our Gen 3 design are increased modularity and greater concentration around energy efficiency and scale. The Gen 3 facility will be best represented by the Chicago, Illinois facility currently under construction. This facility will seem very foreign compared to the traditional data center concepts most of the industry is comfortable with. In fact, if you ever sit around in our container hanger in Chicago it will look incredibly different from a traditional raised-floor data center. We anticipate this modularization will drive huge efficiencies in terms of cost and operations for our business. We will also introduce significant changes in the environmental systems used to run our facilities. These concepts and processes (where applicable) will help us gain even greater efficiencies in our existing footprint, allowing us to further maximize infrastructure investments.

Так как наши ЦОД второго поколения строились из стали и бетона, наши центры обработки данных третьего поколения начали их быстро вытеснять. Главными концептуальными особенностями ЦОД третьего поколения Gen 3 являются повышенная модульность и большее внимание к энергетической эффективности и масштабированию. Дата-центры третьего поколения лучше всего представлены объектом, который в настоящее время строится в Чикаго, Иллинойс. Этот ЦОД будет выглядеть очень необычно, по сравнению с общепринятыми в отрасли представлениями о дата-центре. Действительно, если вам когда-либо удастся побывать в нашем контейнерном ангаре в Чикаго, он покажется вам совершенно непохожим на обычный дата-центр с фальшполом. Мы предполагаем, что этот модульный подход будет способствовать значительному повышению эффективности нашего бизнеса в отношении затрат и операций. Мы также внесем существенные изменения в климатические системы, используемые в наших ЦОД. Эти концепции и технологии, если применимо, позволят нам добиться еще большей эффективности наших существующих дата-центров, и тем самым еще больше увеличивать капиталовложения в инфраструктуру.

This is definitely a journey, not a destination industry. In fact, our Generation 4 design has been under heavy engineering for viability and cost for over a year. While the demand of our commercial growth required us to make investments as we grew, we treated each step in the learning as a process for further innovation in data centers. The design for our future Gen 4 facilities enabled us to make visionary advances that addressed the challenges of building, running, and operating facilities all in one concerted effort.

Это определенно путешествие, а не конечный пункт назначения. На самом деле, наш проект ЦОД четвертого поколения подвергался серьезным испытаниям на жизнеспособность и затраты на протяжении целого года. Хотя необходимость в коммерческом росте требовала от нас постоянных капиталовложений, мы рассматривали каждый этап своего развития как шаг к будущим инновациям в области дата-центров. Проект наших будущих ЦОД четвертого поколения Gen 4 позволил нам делать фантастические предположения, которые касались задач строительства, управления и эксплуатации объектов как единого упорядоченного процесса.

Тематики

• ЦОДы (центры обработки данных)

Синонимы

• модульный ЦОД

EN

• modular data center

Polhem, Christopher

SUBJECT AREA: Mining and extraction technology

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b. 18 December 1661 Tingstade, Gotland, Sweden d. 1751

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Swedish engineer and inventor.

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He was the eldest son of Wolf Christopher Polhamma, a merchant. The father died in 1669 and the son was sent by his stepfather to an uncle in Stockholm who found him a place in the Deutsche Rechenschule. After the death of his uncle, he was forced to find employment, which he did with the Biorenklou family near Uppsala where he eventually became a kind of estate bailiff. It was during this period that he started to work with a lathe, a forge and at carpentry, displaying great technical ability. He realized that without further education he had little chance of making anything of his life, and accordingly, in 1687, he registered at the University of Uppsala where he studied astronomy and mathematics, remaining there for three years. He also repaired two astronomical pendulum clocks as well as the decrepit medieval clock in the cathedral. After a year's work he had this clock running properly: this was his breakthrough. He was summoned to Stockholm where the King awarded him a salary of 500 dalers a year as an encouragement to further efforts. Around this time, one of increasing mechanization and when mining was Sweden's principal industry, Pohlem made a model of a hoist frame for mines and the Mines Authority encouraged him to develop his ideas. In 1693 Polhem completed the Blankstot hoist at the Stora Kopparberg mine, which attracted great interest on the European continent.

From 1694 to 1696 Polhem toured factories, mills and mines abroad in Germany, Holland, England and France, studying machinery of all kinds and meeting many foreign engineers. In 1698 he was appointed Director of Mining Engineering in Sweden, and in 1700 he became Master of Construction in the Falu Mine. He installed the Karl XII hoist there, powered by moving beams from a distant water-wheel. His plan of 1697 for all the machinery at the Falu mine to be driven by three large and remote water-wheels was never completed.

In 1707 he was invited by the Elector of Hanover to visit the mines in the Harz district, where he successfully explained many of his ideas which were adopted by the local engineers. In 1700, in conjunction with Gabriel Stierncrona, he founded the Stiersunds Bruk at Husby in Southern Dalarna, a factory for the mass production of metal goods in iron, steel and bronze. Simple articles such as pans, trays, bowls, knives, scissors and mirrors were made there, together with the more sophisticated Polhem lock and the Stiersunds clock. Production was based on water power. Gear cutting for the clocks, shaping hammers for plates, file cutting and many other operations were all water powered, as was a roller mill for the sheet metal used in the factory. He also designed textile machinery such as stocking looms and spinning frames and machines for the manufacture of ribbons and other things.

In many of his ideas Polhem was in advance of his time and Swedish country society was unable to absorb them. This was largely the reason for the Stiersund project being only a partial success. Polhem, too, was of a disputatious nature, self-opinionated almost to the point of conceit. He was a prolific writer, leaving over 20,000 pages of manuscript notes, drafts, essays on a wide range of subjects, which included building, brick-making, barrels, wheel-making, bell-casting, organ-building, methods of stopping a horse from bolting and a curious tap "to prevent serving maids from sneaking wine from the cask", the construction of ploughs and threshing machines. His major work, Kort Berattelse om de Fornamsta Mechaniska Inventioner (A Brief Account of the Most Famous Inventions), was printed in 1729 and is the main source of knowledge about his technological work. He is also known for his "mechanical alphabet", a collection of some eighty wooden models of mechanisms for educational purposes. It is in the National Museum of Science and Technology in Stockholm.

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Bibliography

1729, Kort Berattelse om de Fornamsta Mechaniska Inventioner (A Brief Account of the Most Famous Inventions).

Further Reading

1985, Christopher Polhem, 1661–1751, TheSwedish Daedalus' (catalogue of a travelling exhibition from the Swedish Institute in association with the National Museum of Science and Technology), Stockholm.

IMcN

Historical Portugal

   Before Romans described western Iberia or Hispania as "Lusitania," ancient Iberians inhabited the land. Phoenician and Greek trading settlements grew up in the Tagus estuary area and nearby coasts. Beginning around 202 BCE, Romans invaded what is today southern Portugal. With Rome's defeat of Carthage, Romans proceeded to conquer and rule the western region north of the Tagus, which they named Roman "Lusitania." In the fourth century CE, as Rome's rule weakened, the area experienced yet another invasion—Germanic tribes, principally the Suevi, who eventually were Christianized. During the sixth century CE, the Suevi kingdom was superseded by yet another Germanic tribe—the Christian Visigoths.

   A major turning point in Portugal's history came in 711, as Muslim armies from North Africa, consisting of both Arab and Berber elements, invaded the Iberian Peninsula from across the Straits of Gibraltar. They entered what is now Portugal in 714, and proceeded to conquer most of the country except for the far north. For the next half a millennium, Islam and Muslim presence in Portugal left a significant mark upon the politics, government, language, and culture of the country.

   Islam, Reconquest, and Portugal Created, 714-1140

   The long frontier struggle between Muslim invaders and Christian communities in the north of the Iberian peninsula was called the Reconquista (Reconquest). It was during this struggle that the first dynasty of Portuguese kings (Burgundian) emerged and the independent monarchy of Portugal was established. Christian forces moved south from what is now the extreme north of Portugal and gradually defeated Muslim forces, besieging and capturing towns under Muslim sway. In the ninth century, as Christian forces slowly made their way southward, Christian elements were dominant only in the area between Minho province and the Douro River; this region became known as "territorium Portu-calense."

   In the 11th century, the advance of the Reconquest quickened as local Christian armies were reinforced by crusading knights from what is now France and England. Christian forces took Montemor (1034), at the Mondego River; Lamego (1058); Viseu (1058); and Coimbra (1064). In 1095, the king of Castile and Léon granted the country of "Portu-cale," what became northern Portugal, to a Burgundian count who had emigrated from France. This was the foundation of Portugal. In 1139, a descendant of this count, Afonso Henriques, proclaimed himself "King of Portugal." He was Portugal's first monarch, the "Founder," and the first of the Burgundian dynasty, which ruled until 1385.

   The emergence of Portugal in the 12th century as a separate monarchy in Iberia occurred before the Christian Reconquest of the peninsula. In the 1140s, the pope in Rome recognized Afonso Henriques as king of Portugal. In 1147, after a long, bloody siege, Muslim-occupied Lisbon fell to Afonso Henriques's army. Lisbon was the greatest prize of the 500-year war. Assisting this effort were English crusaders on their way to the Holy Land; the first bishop of Lisbon was an Englishman. When the Portuguese captured Faro and Silves in the Algarve province in 1248-50, the Reconquest of the extreme western portion of the Iberian peninsula was complete—significantly, more than two centuries before the Spanish crown completed the Reconquest of the eastern portion by capturing Granada in 1492.

   Consolidation and Independence of Burgundian Portugal, 1140-1385

   Two main themes of Portugal's early existence as a monarchy are the consolidation of control over the realm and the defeat of a Castil-ian threat from the east to its independence. At the end of this period came the birth of a new royal dynasty (Aviz), which prepared to carry the Christian Reconquest beyond continental Portugal across the straits of Gibraltar to North Africa. There was a variety of motives behind these developments. Portugal's independent existence was imperiled by threats from neighboring Iberian kingdoms to the north and east. Politics were dominated not only by efforts against the Muslims in

   Portugal (until 1250) and in nearby southern Spain (until 1492), but also by internecine warfare among the kingdoms of Castile, Léon, Aragon, and Portugal. A final comeback of Muslim forces was defeated at the battle of Salado (1340) by allied Castilian and Portuguese forces. In the emerging Kingdom of Portugal, the monarch gradually gained power over and neutralized the nobility and the Church.

   The historic and commonplace Portuguese saying "From Spain, neither a good wind nor a good marriage" was literally played out in diplomacy and war in the late 14th-century struggles for mastery in the peninsula. Larger, more populous Castile was pitted against smaller Portugal. Castile's Juan I intended to force a union between Castile and Portugal during this era of confusion and conflict. In late 1383, Portugal's King Fernando, the last king of the Burgundian dynasty, suddenly died prematurely at age 38, and the Master of Aviz, Portugal's most powerful nobleman, took up the cause of independence and resistance against Castile's invasion. The Master of Aviz, who became King João I of Portugal, was able to obtain foreign assistance. With the aid of English archers, Joao's armies defeated the Castilians in the crucial battle of Aljubarrota, on 14 August 1385, a victory that assured the independence of the Portuguese monarchy from its Castilian nemesis for several centuries.

   Aviz Dynasty and Portugal's First Overseas Empire, 1385-1580

   The results of the victory at Aljubarrota, much celebrated in Portugal's art and monuments, and the rise of the Aviz dynasty also helped to establish a new merchant class in Lisbon and Oporto, Portugal's second city. This group supported King João I's program of carrying the Reconquest to North Africa, since it was interested in expanding Portugal's foreign commerce and tapping into Muslim trade routes and resources in Africa. With the Reconquest against the Muslims completed in Portugal and the threat from Castile thwarted for the moment, the Aviz dynasty launched an era of overseas conquest, exploration, and trade. These efforts dominated Portugal's 15th and 16th centuries.

   The overseas empire and age of Discoveries began with Portugal's bold conquest in 1415 of the Moroccan city of Ceuta. One royal member of the 1415 expedition was young, 21-year-old Prince Henry, later known in history as "Prince Henry the Navigator." His part in the capture of Ceuta won Henry his knighthood and began Portugal's "Marvelous Century," during which the small kingdom was counted as a European and world power of consequence. Henry was the son of King João I and his English queen, Philippa of Lancaster, but he did not inherit the throne. Instead, he spent most of his life and his fortune, and that of the wealthy military Order of Christ, on various imperial ventures and on voyages of exploration down the African coast and into the Atlantic. While mythology has surrounded Henry's controversial role in the Discoveries, and this role has been exaggerated, there is no doubt that he played a vital part in the initiation of Portugal's first overseas empire and in encouraging exploration. He was naturally curious, had a sense of mission for Portugal, and was a strong leader. He also had wealth to expend; at least a third of the African voyages of the time were under his sponsorship. If Prince Henry himself knew little science, significant scientific advances in navigation were made in his day.

   What were Portugal's motives for this new imperial effort? The well-worn historical cliche of "God, Glory, and Gold" can only partly explain the motivation of a small kingdom with few natural resources and barely 1 million people, which was greatly outnumbered by the other powers it confronted. Among Portuguese objectives were the desire to exploit known North African trade routes and resources (gold, wheat, leather, weaponry, and other goods that were scarce in Iberia); the need to outflank the Muslim world in the Mediterranean by sailing around Africa, attacking Muslims en route; and the wish to ally with Christian kingdoms beyond Africa. This enterprise also involved a strategy of breaking the Venetian spice monopoly by trading directly with the East by means of discovering and exploiting a sea route around Africa to Asia. Besides the commercial motives, Portugal nurtured a strong crusading sense of Christian mission, and various classes in the kingdom saw an opportunity for fame and gain.

   By the time of Prince Henry's death in 1460, Portugal had gained control of the Atlantic archipelagos of the Azores and Madeiras, begun to colonize the Cape Verde Islands, failed to conquer the Canary Islands from Castile, captured various cities on Morocco's coast, and explored as far as Senegal, West Africa, down the African coast. By 1488, Bar-tolomeu Dias had rounded the Cape of Good Hope in South Africa and thereby discovered the way to the Indian Ocean.

   Portugal's largely coastal African empire and later its fragile Asian empire brought unexpected wealth but were purchased at a high price. Costs included wars of conquest and defense against rival powers, manning the far-flung navel and trade fleets and scattered castle-fortresses, and staffing its small but fierce armies, all of which entailed a loss of skills and population to maintain a scattered empire. Always short of capital, the monarchy became indebted to bankers. There were many defeats beginning in the 16th century at the hands of the larger imperial European monarchies (Spain, France, England, and Holland) and many attacks on Portugal and its strung-out empire. Typically, there was also the conflict that arose when a tenuously held world empire that rarely if ever paid its way demanded finance and manpower Portugal itself lacked.

   The first 80 years of the glorious imperial era, the golden age of Portugal's imperial power and world influence, was an African phase. During 1415-88, Portuguese navigators and explorers in small ships, some of them caravelas (caravels), explored the treacherous, disease-ridden coasts of Africa from Morocco to South Africa beyond the Cape of Good Hope. By the 1470s, the Portuguese had reached the Gulf of Guinea and, in the early 1480s, what is now Angola. Bartolomeu Dias's extraordinary voyage of 1487-88 to South Africa's coast and the edge of the Indian Ocean convinced Portugal that the best route to Asia's spices and Christians lay south, around the tip of southern Africa. Between 1488 and 1495, there was a hiatus caused in part by domestic conflict in Portugal, discussion of resources available for further conquests beyond Africa in Asia, and serious questions as to Portugal's capacity to reach beyond Africa. In 1495, King Manuel and his council decided to strike for Asia, whatever the consequences. In 1497-99, Vasco da Gama, under royal orders, made the epic two-year voyage that discovered the sea route to western India (Asia), outflanked Islam and Venice, and began Portugal's Asian empire. Within 50 years, Portugal had discovered and begun the exploitation of its largest colony, Brazil, and set up forts and trading posts from the Middle East (Aden and Ormuz), India (Calicut, Goa, etc.), Malacca, and Indonesia to Macau in China.

   By the 1550s, parts of its largely coastal, maritime trading post empire from Morocco to the Moluccas were under siege from various hostile forces, including Muslims, Christians, and Hindi. Although Moroccan forces expelled the Portuguese from the major coastal cities by 1550, the rival European monarchies of Castile (Spain), England, France, and later Holland began to seize portions of her undermanned, outgunned maritime empire.

   In 1580, Phillip II of Spain, whose mother was a Portuguese princess and who had a strong claim to the Portuguese throne, invaded Portugal, claimed the throne, and assumed control over the realm and, by extension, its African, Asian, and American empires. Phillip II filled the power vacuum that appeared in Portugal following the loss of most of Portugal's army and its young, headstrong King Sebastião in a disastrous war in Morocco. Sebastiao's death in battle (1578) and the lack of a natural heir to succeed him, as well as the weak leadership of the cardinal who briefly assumed control in Lisbon, led to a crisis that Spain's strong monarch exploited. As a result, Portugal lost its independence to Spain for a period of 60 years.

   Portugal under Spanish Rule, 1580-1640

   Despite the disastrous nature of Portugal's experience under Spanish rule, "The Babylonian Captivity" gave birth to modern Portuguese nationalism, its second overseas empire, and its modern alliance system with England. Although Spain allowed Portugal's weakened empire some autonomy, Spanish rule in Portugal became increasingly burdensome and unacceptable. Spain's ambitious imperial efforts in Europe and overseas had an impact on the Portuguese as Spain made greater and greater demands on its smaller neighbor for manpower and money. Portugal's culture underwent a controversial Castilianization, while its empire became hostage to Spain's fortunes. New rival powers England, France, and Holland attacked and took parts of Spain's empire and at the same time attacked Portugal's empire, as well as the mother country.

   Portugal's empire bore the consequences of being attacked by Spain's bitter enemies in what was a form of world war. Portuguese losses were heavy. By 1640, Portugal had lost most of its Moroccan cities as well as Ceylon, the Moluccas, and sections of India. With this, Portugal's Asian empire was gravely weakened. Only Goa, Damão, Diu, Bombay, Timor, and Macau remained and, in Brazil, Dutch forces occupied the northeast.

   On 1 December 1640, long commemorated as a national holiday, Portuguese rebels led by the duke of Braganza overthrew Spanish domination and took advantage of Spanish weakness following a more serious rebellion in Catalonia. Portugal regained independence from Spain, but at a price: dependence on foreign assistance to maintain its independence in the form of the renewal of the alliance with England.

   Restoration and Second Empire, 1640-1822

   Foreign affairs and empire dominated the restoration era and aftermath, and Portugal again briefly enjoyed greater European power and prestige. The Anglo-Portuguese Alliance was renewed and strengthened in treaties of 1642, 1654, and 1661, and Portugal's independence from Spain was underwritten by English pledges and armed assistance. In a Luso-Spanish treaty of 1668, Spain recognized Portugal's independence. Portugal's alliance with England was a marriage of convenience and necessity between two monarchies with important religious, cultural, and social differences. In return for legal, diplomatic, and trade privileges, as well as the use during war and peace of Portugal's great Lisbon harbor and colonial ports for England's navy, England pledged to protect Portugal and its scattered empire from any attack. The previously cited 17th-century alliance treaties were renewed later in the Treaty of Windsor, signed in London in 1899. On at least 10 different occasions after 1640, and during the next two centuries, England was central in helping prevent or repel foreign invasions of its ally, Portugal.

   Portugal's second empire (1640-1822) was largely Brazil-oriented. Portuguese colonization, exploitation of wealth, and emigration focused on Portuguese America, and imperial revenues came chiefly from Brazil. Between 1670 and 1740, Portugal's royalty and nobility grew wealthier on funds derived from Brazilian gold, diamonds, sugar, tobacco, and other crops, an enterprise supported by the Atlantic slave trade and the supply of African slave labor from West Africa and Angola. Visitors today can see where much of that wealth was invested: Portugal's rich legacy of monumental architecture. Meanwhile, the African slave trade took a toll in Angola and West Africa.

   In continental Portugal, absolutist monarchy dominated politics and government, and there was a struggle for position and power between the monarchy and other institutions, such as the Church and nobility. King José I's chief minister, usually known in history as the marquis of Pombal (ruled 1750-77), sharply suppressed the nobility and the

   Church (including the Inquisition, now a weak institution) and expelled the Jesuits. Pombal also made an effort to reduce economic dependence on England, Portugal's oldest ally. But his successes did not last much beyond his disputed time in office.

   Beginning in the late 18th century, the European-wide impact of the French Revolution and the rise of Napoleon placed Portugal in a vulnerable position. With the monarchy ineffectively led by an insane queen (Maria I) and her indecisive regent son (João VI), Portugal again became the focus of foreign ambition and aggression. With England unable to provide decisive assistance in time, France—with Spain's consent—invaded Portugal in 1807. As Napoleon's army under General Junot entered Lisbon meeting no resistance, Portugal's royal family fled on a British fleet to Brazil, where it remained in exile until 1821. In the meantime, Portugal's overseas empire was again under threat. There was a power vacuum as the monarch was absent, foreign armies were present, and new political notions of liberalism and constitutional monarchy were exciting various groups of citizens.

   Again England came to the rescue, this time in the form of the armies of the duke of Wellington. Three successive French invasions of Portugal were defeated and expelled, and Wellington succeeded in carrying the war against Napoleon across the Portuguese frontier into Spain. The presence of the English army, the new French-born liberal ideas, and the political vacuum combined to create revolutionary conditions. The French invasions and the peninsular wars, where Portuguese armed forces played a key role, marked the beginning of a new era in politics.

   Liberalism and Constitutional Monarchy, 1822-1910

   During 1807-22, foreign invasions, war, and civil strife over conflicting political ideas gravely damaged Portugal's commerce, economy, and novice industry. The next terrible blow was the loss of Brazil in 1822, the jewel in the imperial crown. Portugal's very independence seemed to be at risk. In vain, Portugal sought to resist Brazilian independence by force, but in 1825 it formally acknowledged Brazilian independence by treaty.

   Portugal's slow recovery from the destructive French invasions and the "war of independence" was complicated by civil strife over the form of constitutional monarchy that best suited Portugal. After struggles over these issues between 1820 and 1834, Portugal settled somewhat uncertainly into a moderate constitutional monarchy whose constitution (Charter of 1826) lent it strong political powers to exert a moderating influence between the executive and legislative branches of the government. It also featured a new upper middle class based on land ownership and commerce; a Catholic Church that, although still important, lived with reduced privileges and property; a largely African (third) empire to which Lisbon and Oporto devoted increasing spiritual and material resources, starting with the liberal imperial plans of 1836 and 1851, and continuing with the work of institutions like the Lisbon Society of Geography (established 1875); and a mass of rural peasants whose bonds to the land weakened after 1850 and who began to immigrate in increasing numbers to Brazil and North America.

   Chronic military intervention in national politics began in 19th-century Portugal. Such intervention, usually commencing with coups or pronunciamentos (military revolts), was a shortcut to the spoils of political office and could reflect popular discontent as well as the power of personalities. An early example of this was the 1817 golpe (coup) attempt of General Gomes Freire against British military rule in Portugal before the return of King João VI from Brazil. Except for a more stable period from 1851 to 1880, military intervention in politics, or the threat thereof, became a feature of the constitutional monarchy's political life, and it continued into the First Republic and the subsequent Estado Novo.

   Beginning with the Regeneration period (1851-80), Portugal experienced greater political stability and economic progress. Military intervention in politics virtually ceased; industrialization and construction of railroads, roads, and bridges proceeded; two political parties (Regenerators and Historicals) worked out a system of rotation in power; and leading intellectuals sparked a cultural revival in several fields. In 19th-century literature, there was a new golden age led by such figures as Alexandre Herculano (historian), Eça de Queirós (novelist), Almeida Garrett (playwright and essayist), Antero de Quental (poet), and Joaquim Oliveira Martins (historian and social scientist). In its third overseas empire, Portugal attempted to replace the slave trade and slavery with legitimate economic activities; to reform the administration; and to expand Portuguese holdings beyond coastal footholds deep into the African hinterlands in West, West Central, and East Africa. After 1841, to some extent, and especially after 1870, colonial affairs, combined with intense nationalism, pressures for economic profit in Africa, sentiment for national revival, and the drift of European affairs would make or break Lisbon governments.

   Beginning with the political crisis that arose out of the "English Ultimatum" affair of January 1890, the monarchy became discredtted and identified with the poorly functioning government, political parties splintered, and republicanism found more supporters. Portugal participated in the "Scramble for Africa," expanding its African holdings, but failed to annex territory connecting Angola and Mozambique. A growing foreign debt and state bankruptcy as of the early 1890s damaged the constitutional monarchy's reputation, despite the efforts of King Carlos in diplomacy, the renewal of the alliance in the Windsor Treaty of 1899, and the successful if bloody colonial wars in the empire (1880-97). Republicanism proclaimed that Portugal's weak economy and poor society were due to two historic institutions: the monarchy and the Catholic Church. A republic, its stalwarts claimed, would bring greater individual liberty; efficient, if more decentralized government; and a stronger colonial program while stripping the Church of its role in both society and education.

   As the monarchy lost support and republicans became more aggressive, violence increased in politics. King Carlos I and his heir Luís were murdered in Lisbon by anarchist-republicans on 1 February 1908. Following a military and civil insurrection and fighting between monarchist and republican forces, on 5 October 1910, King Manuel II fled Portugal and a republic was proclaimed.

   First Parliamentary Republic, 1910-26

   Portugal's first attempt at republican government was the most unstable, turbulent parliamentary republic in the history of 20th-century Western Europe. During a little under 16 years of the republic, there were 45 governments, a number of legislatures that did not complete normal terms, military coups, and only one president who completed his four-year term in office. Portuguese society was poorly prepared for this political experiment. Among the deadly legacies of the monarchy were a huge public debt; a largely rural, apolitical, and illiterate peasant population; conflict over the causes of the country's misfortunes; and lack of experience with a pluralist, democratic system.

   The republic had some talented leadership but lacked popular, institutional, and economic support. The 1911 republican constitution established only a limited democracy, as only a small portion of the adult male citizenry was eligible to vote. In a country where the majority was Catholic, the republic passed harshly anticlerical laws, and its institutions and supporters persecuted both the Church and its adherents. During its brief disjointed life, the First Republic drafted important reform plans in economic, social, and educational affairs; actively promoted development in the empire; and pursued a liberal, generous foreign policy. Following British requests for Portugal's assistance in World War I, Portugal entered the war on the Allied side in March 1916 and sent armies to Flanders and Portuguese Africa. Portugal's intervention in that conflict, however, was too costly in many respects, and the ultimate failure of the republic in part may be ascribed to Portugal's World War I activities.

   Unfortunately for the republic, its time coincided with new threats to Portugal's African possessions: World War I, social and political demands from various classes that could not be reconciled, excessive military intervention in politics, and, in particular, the worst economic and financial crisis Portugal had experienced since the 16th and 17th centuries. After the original Portuguese Republican Party (PRP, also known as the "Democrats") splintered into three warring groups in 1912, no true multiparty system emerged. The Democrats, except for only one or two elections, held an iron monopoly of electoral power, and political corruption became a major issue. As extreme right-wing dictatorships elsewhere in Europe began to take power in Italy (1922), neighboring Spain (1923), and Greece (1925), what scant popular support remained for the republic collapsed. Backed by a right-wing coalition of landowners from Alentejo, clergy, Coimbra University faculty and students, Catholic organizations, and big business, career military officers led by General Gomes da Costa executed a coup on 28 May 1926, turned out the last republican government, and established a military government.

   The Estado Novo (New State), 1926-74

   During the military phase (1926-32) of the Estado Novo, professional military officers, largely from the army, governed and administered Portugal and held key cabinet posts, but soon discovered that the military possessed no magic formula that could readily solve the problems inherited from the First Republic. Especially during the years 1926-31, the military dictatorship, even with its political repression of republican activities and institutions (military censorship of the press, political police action, and closure of the republic's rowdy parliament), was characterized by similar weaknesses: personalism and factionalism; military coups and political instability, including civil strife and loss of life; state debt and bankruptcy; and a weak economy. "Barracks parliamentarism" was not an acceptable alternative even to the "Nightmare Republic."

   Led by General Óscar Carmona, who had replaced and sent into exile General Gomes da Costa, the military dictatorship turned to a civilian expert in finance and economics to break the budget impasse and bring coherence to the disorganized system. Appointed minister of finance on 27 April 1928, the Coimbra University Law School professor of economics Antônio de Oliveira Salazar (1889-1970) first reformed finance, helped balance the budget, and then turned to other concerns as he garnered extraordinary governing powers. In 1930, he was appointed interim head of another key ministry (Colonies) and within a few years had become, in effect, a civilian dictator who, with the military hierarchy's support, provided the government with coherence, a program, and a set of policies.

   For nearly 40 years after he was appointed the first civilian prime minister in 1932, Salazar's personality dominated the government. Unlike extreme right-wing dictators elsewhere in Europe, Salazar was directly appointed by the army but was never endorsed by a popular political party, street militia, or voter base. The scholarly, reclusive former Coimbra University professor built up what became known after 1932 as the Estado Novo ("New State"), which at the time of its overthrow by another military coup in 1974, was the longest surviving authoritarian regime in Western Europe. The system of Salazar and the largely academic and technocratic ruling group he gathered in his cabinets was based on the central bureaucracy of the state, which was supported by the president of the republic—always a senior career military officer, General Óscar Carmona (1928-51), General Craveiro Lopes (1951-58), and Admiral Américo Tómaz (1958-74)—and the complicity of various institutions. These included a rubber-stamp legislature called the National Assembly (1935-74) and a political police known under various names: PVDE (1932-45), PIDE (1945-69),

   and DGS (1969-74). Other defenders of the Estado Novo security were paramilitary organizations such as the National Republican Guard (GNR); the Portuguese Legion (PL); and the Portuguese Youth [Movement]. In addition to censorship of the media, theater, and books, there was political repression and a deliberate policy of depoliticization. All political parties except for the approved movement of regime loyalists, the União Nacional or (National Union), were banned.

   The most vigorous and more popular period of the New State was 1932-44, when the basic structures were established. Never monolithic or entirely the work of one person (Salazar), the New State was constructed with the assistance of several dozen top associates who were mainly academics from law schools, some technocrats with specialized skills, and a handful of trusted career military officers. The 1933 Constitution declared Portugal to be a "unitary, corporative Republic," and pressures to restore the monarchy were resisted. Although some of the regime's followers were fascists and pseudofascists, many more were conservative Catholics, integralists, nationalists, and monarchists of different varieties, and even some reactionary republicans. If the New State was authoritarian, it was not totalitarian and, unlike fascism in Benito Mussolini's Italy or Adolf Hitler's Germany, it usually employed the minimum of violence necessary to defeat what remained a largely fractious, incoherent opposition.

   With the tumultuous Second Republic and the subsequent civil war in nearby Spain, the regime felt threatened and reinforced its defenses. During what Salazar rightly perceived as a time of foreign policy crisis for Portugal (1936-45), he assumed control of the Ministry of Foreign Affairs. From there, he pursued four basic foreign policy objectives: supporting the Nationalist rebels of General Francisco Franco in the Spanish Civil War (1936-39) and concluding defense treaties with a triumphant Franco; ensuring that General Franco in an exhausted Spain did not enter World War II on the Axis side; maintaining Portuguese neutrality in World War II with a post-1942 tilt toward the Allies, including granting Britain and the United States use of bases in the Azores Islands; and preserving and protecting Portugal's Atlantic Islands and its extensive, if poor, overseas empire in Africa and Asia.

   During the middle years of the New State (1944-58), many key Salazar associates in government either died or resigned, and there was greater social unrest in the form of unprecedented strikes and clandestine Communist activities, intensified opposition, and new threatening international pressures on Portugal's overseas empire. During the earlier phase of the Cold War (1947-60), Portugal became a steadfast, if weak, member of the US-dominated North Atlantic Treaty Organization alliance and, in 1955, with American support, Portugal joined the United Nations (UN). Colonial affairs remained a central concern of the regime. As of 1939, Portugal was the third largest colonial power in the world and possessed territories in tropical Africa (Angola, Mozambique, Guinea-Bissau, and São Tomé and Príncipe Islands) and the remnants of its 16th-century empire in Asia (Goa, Damão, Diu, East Timor, and Macau). Beginning in the early 1950s, following the independence of India in 1947, Portugal resisted Indian pressures to decolonize Portuguese India and used police forces to discourage internal opposition in its Asian and African colonies.

   The later years of the New State (1958-68) witnessed the aging of the increasingly isolated but feared Salazar and new threats both at home and overseas. Although the regime easily overcame the brief oppositionist threat from rival presidential candidate General Humberto Delgado in the spring of 1958, new developments in the African and Asian empires imperiled the authoritarian system. In February 1961, oppositionists hijacked the Portuguese ocean liner Santa Maria and, in following weeks, African insurgents in northern Angola, although they failed to expel the Portuguese, gained worldwide media attention, discredited the New State, and began the 13-year colonial war. After thwarting a dissident military coup against his continued leadership, Salazar and his ruling group mobilized military repression in Angola and attempted to develop the African colonies at a faster pace in order to ensure Portuguese control. Meanwhile, the other European colonial powers (Britain, France, Belgium, and Spain) rapidly granted political independence to their African territories.

   At the time of Salazar's removal from power in September 1968, following a stroke, Portugal's efforts to maintain control over its colonies appeared to be successful. President Americo Tomás appointed Dr. Marcello Caetano as Salazar's successor as prime minister. While maintaining the New State's basic structures, and continuing the regime's essential colonial policy, Caetano attempted wider reforms in colonial administration and some devolution of power from Lisbon, as well as more freedom of expression in Lisbon. Still, a great deal of the budget was devoted to supporting the wars against the insurgencies in Africa. Meanwhile in Asia, Portuguese India had fallen when the Indian army invaded in December 1961. The loss of Goa was a psychological blow to the leadership of the New State, and of the Asian empire only East Timor and Macau remained.

   The Caetano years (1968-74) were but a hiatus between the waning Salazar era and a new regime. There was greater political freedom and rapid economic growth (5-6 percent annually to late 1973), but Caetano's government was unable to reform the old system thoroughly and refused to consider new methods either at home or in the empire. In the end, regime change came from junior officers of the professional military who organized the Armed Forces Movement (MFA) against the Caetano government. It was this group of several hundred officers, mainly in the army and navy, which engineered a largely bloodless coup in Lisbon on 25 April 1974. Their unexpected action brought down the 48-year-old New State and made possible the eventual establishment and consolidation of democratic governance in Portugal, as well as a reorientation of the country away from the Atlantic toward Europe.

   Revolution of Carnations, 1974-76

   Following successful military operations of the Armed Forces Movement against the Caetano government, Portugal experienced what became known as the "Revolution of Carnations." It so happened that during the rainy week of the military golpe, Lisbon flower shops were featuring carnations, and the revolutionaries and their supporters adopted the red carnation as the common symbol of the event, as well as of the new freedom from dictatorship. The MFA, whose leaders at first were mostly little-known majors and captains, proclaimed a three-fold program of change for the new Portugal: democracy; decolonization of the overseas empire, after ending the colonial wars; and developing a backward economy in the spirit of opportunity and equality. During the first 24 months after the coup, there was civil strife, some anarchy, and a power struggle. With the passing of the Estado Novo, public euphoria burst forth as the new provisional military government proclaimed the freedoms of speech, press, and assembly, and abolished censorship, the political police, the Portuguese Legion, Portuguese Youth, and other New State organizations, including the National Union. Scores of political parties were born and joined the senior political party, the Portuguese Community Party (PCP), and the Socialist Party (PS), founded shortly before the coup.

   Portugal's Revolution of Carnations went through several phases. There was an attempt to take control by radical leftists, including the PCP and its allies. This was thwarted by moderate officers in the army, as well as by the efforts of two political parties: the PS and the Social Democrats (PPD, later PSD). The first phase was from April to September 1974. Provisional president General Antonio Spínola, whose 1974 book Portugal and the Future had helped prepare public opinion for the coup, met irresistible leftist pressures. After Spinola's efforts to avoid rapid decolonization of the African empire failed, he resigned in September 1974. During the second phase, from September 1974 to March 1975, radical military officers gained control, but a coup attempt by General Spínola and his supporters in Lisbon in March 1975 failed and Spínola fled to Spain.

   In the third phase of the Revolution, March-November 1975, a strong leftist reaction followed. Farm workers occupied and "nationalized" 1.1 million hectares of farmland in the Alentejo province, and radical military officers in the provisional government ordered the nationalization of Portuguese banks (foreign banks were exempted), utilities, and major industries, or about 60 percent of the economic system. There were power struggles among various political parties — a total of 50 emerged—and in the streets there was civil strife among labor, military, and law enforcement groups. A constituent assembly, elected on 25 April 1975, in Portugal's first free elections since 1926, drafted a democratic constitution. The Council of the Revolution (CR), briefly a revolutionary military watchdog committee, was entrenched as part of the government under the constitution, until a later revision. During the chaotic year of 1975, about 30 persons were killed in political frays while unstable provisional governments came and went. On 25 November 1975, moderate military forces led by Colonel Ramalho Eanes, who later was twice elected president of the republic (1976 and 1981), defeated radical, leftist military groups' revolutionary conspiracies.

   In the meantime, Portugal's scattered overseas empire experienced a precipitous and unprepared decolonization. One by one, the former colonies were granted and accepted independence—Guinea-Bissau (September 1974), Cape Verde Islands (July 1975), and Mozambique (July 1975). Portugal offered to turn over Macau to the People's Republic of China, but the offer was refused then and later negotiations led to the establishment of a formal decolonization or hand-over date of 1999. But in two former colonies, the process of decolonization had tragic results.

   In Angola, decolonization negotiations were greatly complicated by the fact that there were three rival nationalist movements in a struggle for power. The January 1975 Alvor Agreement signed by Portugal and these three parties was not effectively implemented. A bloody civil war broke out in Angola in the spring of 1975 and, when Portuguese armed forces withdrew and declared that Angola was independent on 11 November 1975, the bloodshed only increased. Meanwhile, most of the white Portuguese settlers from Angola and Mozambique fled during the course of 1975. Together with African refugees, more than 600,000 of these retornados ("returned ones") went by ship and air to Portugal and thousands more to Namibia, South Africa, Brazil, Canada, and the United States.

   The second major decolonization disaster was in Portugal's colony of East Timor in the Indonesian archipelago. Portugal's capacity to supervise and control a peaceful transition to independence in this isolated, neglected colony was limited by the strength of giant Indonesia, distance from Lisbon, and Portugal's revolutionary disorder and inability to defend Timor. In early December 1975, before Portugal granted formal independence and as one party, FRETILIN, unilaterally declared East Timor's independence, Indonesia's armed forces invaded, conquered, and annexed East Timor. Indonesian occupation encountered East Timorese resistance, and a heavy loss of life followed. The East Timor question remained a contentious international issue in the UN, as well as in Lisbon and Jakarta, for more than 20 years following Indonesia's invasion and annexation of the former colony of Portugal. Major changes occurred, beginning in 1998, after Indonesia underwent a political revolution and allowed a referendum in East Timor to decide that territory's political future in August 1999. Most East Timorese chose independence, but Indonesian forces resisted that verdict until

   UN intervention in September 1999. Following UN rule for several years, East Timor attained full independence on 20 May 2002.

   Consolidation of Democracy, 1976-2000

   After several free elections and record voter turnouts between 25 April 1975 and June 1976, civil war was averted and Portugal's second democratic republic began to stabilize. The MFA was dissolved, the military were returned to the barracks, and increasingly elected civilians took over the government of the country. The 1976 Constitution was revised several times beginning in 1982 and 1989, in order to reempha-size the principle of free enterprise in the economy while much of the large, nationalized sector was privatized. In June 1976, General Ram-alho Eanes was elected the first constitutional president of the republic (five-year term), and he appointed socialist leader Dr. Mário Soares as prime minister of the first constitutional government.

   From 1976 to 1985, Portugal's new system featured a weak economy and finances, labor unrest, and administrative and political instability. The difficult consolidation of democratic governance was eased in part by the strong currency and gold reserves inherited from the Estado Novo, but Lisbon seemed unable to cope with high unemployment, new debt, the complex impact of the refugees from Africa, world recession, and the agitation of political parties. Four major parties emerged from the maelstrom of 1974-75, except for the Communist Party, all newly founded. They were, from left to right, the Communists (PCP); the Socialists (PS), who managed to dominate governments and the legislature but not win a majority in the Assembly of the Republic; the Social Democrats (PSD); and the Christian Democrats (CDS). During this period, the annual growth rate was low (l-2 percent), and the nationalized sector of the economy stagnated.

   Enhanced economic growth, greater political stability, and more effective central government as of 1985, and especially 1987, were due to several developments. In 1977, Portugal applied for membership in the European Economic Community (EEC), now the European Union (EU) since 1993. In January 1986, with Spain, Portugal was granted membership, and economic and financial progress in the intervening years has been significantly influenced by the comparatively large investment, loans, technology, advice, and other assistance from the EEC. Low unemployment, high annual growth rates (5 percent), and moderate inflation have also been induced by the new political and administrative stability in Lisbon. Led by Prime Minister Cavaco Silva, an economist who was trained abroad, the PSD's strong organization, management, and electoral support since 1985 have assisted in encouraging economic recovery and development. In 1985, the PSD turned the PS out of office and won the general election, although they did not have an absolute majority of assembly seats. In 1986, Mário Soares was elected president of the republic, the first civilian to hold that office since the First Republic. In the elections of 1987 and 1991, however, the PSD was returned to power with clear majorities of over 50 percent of the vote.

   Although the PSD received 50.4 percent of the vote in the 1991 parliamentary elections and held a 42-seat majority in the Assembly of the Republic, the party began to lose public support following media revelations regarding corruption and complaints about Prime Minister Cavaco Silva's perceived arrogant leadership style. President Mário Soares voiced criticism of the PSD's seemingly untouchable majority and described a "tyranny of the majority." Economic growth slowed down. In the parliamentary elections of 1995 and the presidential election of 1996, the PSD's dominance ended for the time being. Prime Minister Antônio Guterres came to office when the PS won the October 1995 elections, and in the subsequent presidential contest, in January 1996, socialist Jorge Sampaio, the former mayor of Lisbon, was elected president of the republic, thus defeating Cavaco Silva's bid. Young and popular, Guterres moved the PS toward the center of the political spectrum. Under Guterres, the PS won the October 1999 parliamentary elections. The PS defeated the PSD but did not manage to win a clear, working majority of seats, and this made the PS dependent upon alliances with smaller parties, including the PCP.

   In the local elections in December 2001, the PSD's criticism of PS's heavy public spending allowed the PSD to take control of the key cities of Lisbon, Oporto, and Coimbra. Guterres resigned, and parliamentary elections were brought forward from 2004 to March 2002. The PSD won a narrow victory with 40 percent of the votes, and Jose Durão Barroso became prime minister. Having failed to win a majority of the seats in parliament forced the PSD to govern in coalition with the right-wing Popular Party (PP) led by Paulo Portas. Durão Barroso set about reducing government spending by cutting the budgets of local authorities, freezing civil service hiring, and reviving the economy by accelerating privatization of state-owned enterprises. These measures provoked a 24-hour strike by public-sector workers. Durão Barroso reacted with vows to press ahead with budget-cutting measures and imposed a wage freeze on all employees earning more than €1,000, which affected more than one-half of Portugal's work force.

   In June 2004, Durão Barroso was invited by Romano Prodi to succeed him as president of the European Commission. Durão Barroso accepted and resigned the prime ministership in July. Pedro Santana Lopes, the leader of the PSD, became prime minister. Already unpopular at the time of Durão Barroso's resignation, the PSD-led government became increasingly unpopular under Santana Lopes. A month-long delay in the start of the school year and confusion over his plan to cut taxes and raise public-sector salaries, eroded confidence even more. By November, Santana Lopes's government was so unpopular that President Jorge Sampaio was obliged to dissolve parliament and hold new elections, two years ahead of schedule.

   Parliamentary elections were held on 20 February 2005. The PS, which had promised the electorate disciplined and transparent governance, educational reform, the alleviation of poverty, and a boost in employment, won 45 percent of the vote and the majority of the seats in parliament. The leader of the PS, José Sôcrates became prime minister on 12 March 2005. In the regularly scheduled presidential elections held on 6 January 2006, the former leader of the PSD and prime minister, Aníbal Cavaco Silva, won a narrow victory and became president on 9 March 2006. With a mass protest, public teachers' strike, and street demonstrations in March 2008, Portugal's media, educational, and social systems experienced more severe pressures. With the spreading global recession beginning in September 2008, Portugal's economic and financial systems became more troubled.

    Contemporary Portugal

   Owing to its geographic location on the southwestern most edge of continental Europe, Portugal has been historically in but not of Europe. Almost from the beginning of its existence in the 12th century as an independent monarchy, Portugal turned its back on Europe and oriented itself toward the Atlantic Ocean. After carving out a Christian kingdom on the western portion of the Iberian peninsula, Portuguese kings gradually built and maintained a vast seaborne global empire that became central to the way Portugal understood its individuality as a nation-state. While the creation of this empire allows Portugal to claim an unusual number of "firsts" or distinctions in world and Western history, it also retarded Portugal's economic, social, and political development. It can be reasonably argued that the Revolution of 25 April 1974 was the most decisive event in Portugal's long history because it finally ended Portugal's oceanic mission and view of itself as an imperial power. After the 1974 Revolution, Portugal turned away from its global mission and vigorously reoriented itself toward Europe. Contemporary Portugal is now both in and of Europe.

   The turn toward Europe began immediately after 25 April 1974. Portugal granted independence to its African colonies in 1975. It was admitted to the European Council and took the first steps toward accession to the European Economic Community (EEC) in 1976. On 28 March 1977, the Portuguese government officially applied for EEC membership. Because of Portugal's economic and social backwardness, which would require vast sums of EEC money to overcome, negotiations for membership were long and difficult. Finally, a treaty of accession was signed on 12 June 1985. Portugal officially joined the EEC (the European Union [EU] since 1993) on 1 January 1986. Since becoming a full-fledged member of the EU, Portugal has been steadily overcoming the economic and social underdevelopment caused by its imperial past and is becoming more like the rest of Europe.

   Membership in the EU has speeded up the structural transformation of Portugal's economy, which actually began during the Estado Novo. Investments made by the Estado Novo in Portugal's economy began to shift employment out of the agricultural sector, which, in 1950, accounted for 50 percent of Portugal's economically active population. Today, only 10 percent of the economically active population is employed in the agricultural sector (the highest among EU member states); 30 percent in the industrial sector (also the highest among EU member states); and 60 percent in the service sector (the lowest among EU member states). The economically active population numbers about 5,000,000 employed, 56 percent of whom are women. Women workers are the majority of the workforce in the agricultural and service sectors (the highest among the EU member states). The expansion of the service sector has been primarily in health care and education. Portugal has had the lowest unemployment rates among EU member states, with the overall rate never being more than 10 percent of the active population. Since joining the EU, the number of employers increased from 2.6 percent to 5.8 percent of the active population; self-employed from 16 to 19 percent; and employees from 65 to 70 percent. Twenty-six percent of the employers are women. Unemployment tends to hit younger workers in industry and transportation, women employed in domestic service, workers on short-term contracts, and poorly educated workers. Salaried workers earn only 63 percent of the EU average, and hourly workers only one-third to one-half of that earned by their EU counterparts. Despite having had the second highest growth of gross national product (GNP) per inhabitant (after Ireland) among EU member states, the above data suggest that while much has been accomplished in terms of modernizing the Portuguese economy, much remains to be done to bring Portugal's economy up to the level of the "average" EU member state.

   Membership in the EU has also speeded up changes in Portuguese society. Over the last 30 years, coastalization and urbanization have intensified. Fully 50 percent of Portuguese live in the coastal urban conurbations of Lisbon, Oporto, Braga, Aveiro, Coimbra, Viseu, Évora, and Faro. The Portuguese population is one of the oldest among EU member states (17.3 percent are 65 years of age or older) thanks to a considerable increase in life expectancy at birth (77.87 years for the total population, 74.6 years for men, 81.36 years for women) and one of the lowest birthrates (10.59 births/1,000) in Europe. Family size averages 2.8 persons per household, with the strict nuclear family (one or two generations) in which both parents work being typical. Common law marriages, cohabitating couples, and single-parent households are more and more common. The divorce rate has also increased. "Youth Culture" has developed. The young have their own meeting places, leisure-time activities, and nightlife (bars, clubs, and discos).

   All Portuguese citizens, whether they have contributed or not, have a right to an old-age pension, invalidity benefits, widowed persons' pension, as well as payments for disabilities, children, unemployment, and large families. There is a national minimum wage (€385 per month), which is low by EU standards. The rapid aging of Portugal's population has changed the ratio of contributors to pensioners to 1.7, the lowest in the EU. This has created deficits in Portugal's social security fund.

   The adult literacy rate is about 92 percent. Illiteracy is still found among the elderly. Although universal compulsory education up to grade 9 was achieved in 1980, only 21.2 percent of the population aged 25-64 had undergone secondary education, compared to an EU average of 65.7 percent. Portugal's higher education system currently consists of 14 state universities and 14 private universities, 15 state polytechnic institutions, one Catholic university, and one military academy. All in all, Portugal spends a greater percentage of its state budget on education than most EU member states. Despite this high level of expenditure, the troubled Portuguese education system does not perform well. Early leaving and repetition rates are among the highest among EU member states.

   After the Revolution of 25 April 1974, Portugal created a National Health Service, which today consists of 221 hospitals and 512 medical centers employing 33,751 doctors and 41,799 nurses. Like its education system, Portugal's medical system is inefficient. There are long waiting lists for appointments with specialists and for surgical procedures.

   Structural changes in Portugal's economy and society mean that social life in Portugal is not too different from that in other EU member states. A mass consumption society has been created. Televisions, telephones, refrigerators, cars, music equipment, mobile phones, and personal computers are commonplace. Sixty percent of Portuguese households possess at least one automobile, and 65 percent of Portuguese own their own home. Portuguese citizens are more aware of their legal rights than ever before. This has resulted in a trebling of the number of legal proceeding since 1960 and an eight-fold increase in the number of lawyers. In general, Portuguese society has become more permissive and secular; the Catholic Church and the armed forces are much less influential than in the past. Portugal's population is also much more culturally, religiously, and ethnically diverse, a consequence of the coming to Portugal of hundreds of thousands of immigrants, mainly from former African colonies.

   Portuguese are becoming more cosmopolitan and sophisticated through the impact of world media, the Internet, and the World Wide Web. A prime case in point came in the summer and early fall of 1999, with the extraordinary events in East Timor and the massive Portuguese popular responses. An internationally monitored referendum in East Timor, Portugal's former colony in the Indonesian archipelago and under Indonesian occupation from late 1975 to summer 1999, resulted in a vote of 78.5 percent for rejecting integration with Indonesia and for independence. When Indonesian prointegration gangs, aided by the Indonesian military, responded to the referendum with widespread brutality and threatened to reverse the verdict of the referendum, there was a spontaneous popular outpouring of protest in the cities and towns of Portugal. An avalanche of Portuguese e-mail fell on leaders and groups in the UN and in certain countries around the world as Portugal's diplomats, perhaps to compensate for the weak initial response to Indonesian armed aggression in 1975, called for the protection of East Timor as an independent state and for UN intervention to thwart Indonesian action. Using global communications networks, the Portuguese were able to mobilize UN and world public opinion against Indonesian actions and aided the eventual independence of East Timor on 20 May 2002.

   From the Revolution of 25 April 1974 until the 1990s, Portugal had a large number of political parties, one of the largest Communist parties in western Europe, frequent elections, and endemic cabinet instability. Since the 1990s, the number of political parties has been dramatically reduced and cabinet stability increased. Gradually, the Portuguese electorate has concentrated around two larger parties, the right-of-center Social Democrats (PSD) and the left-of-center Socialist (PS). In the 1980s, these two parties together garnered 65 percent of the vote and 70 percent of the seats in parliament. In 2005, these percentages had risen to 74 percent and 85 percent, respectively. In effect, Portugal is currently a two-party dominant system in which the two largest parties — PS and PSD—alternate in and out of power, not unlike the rotation of the two main political parties (the Regenerators and the Historicals) during the last decades (1850s to 1880s) of the liberal constitutional monarchy. As Portugal's democracy has consolidated, turnout rates for the eligible electorate have declined. In the 1970s, turnout was 85 percent. In Portugal's most recent parliamentary election (2005), turnout had fallen to 65 percent of the eligible electorate.

   Portugal has benefited greatly from membership in the EU, and whatever doubts remain about the price paid for membership, no Portuguese government in the near future can afford to sever this connection. The vast majority of Portuguese citizens see membership in the EU as a "good thing" and strongly believe that Portugal has benefited from membership. Only the Communist Party opposed membership because it reduces national sovereignty, serves the interests of capitalists not workers, and suffers from a democratic deficit. Despite the high level of support for the EU, Portuguese voters are increasingly not voting in elections for the European Parliament, however. Turnout for European Parliament elections fell from 40 percent of the eligible electorate in the 1999 elections to 38 percent in the 2004 elections.

   In sum, Portugal's turn toward Europe has done much to overcome its backwardness. However, despite the economic, social, and political progress made since 1986, Portugal has a long way to go before it can claim to be on a par with the level found even in Spain, much less the rest of western Europe. As Portugal struggles to move from underde-velopment, especially in the rural areas away from the coast, it must keep in mind the perils of too rapid modern development, which could damage two of its most precious assets: its scenery and environment. The growth and future prosperity of the economy will depend on the degree to which the government and the private sector will remain stewards of clean air, soil, water, and other finite resources on which the tourism industry depends and on which Portugal's world image as a unique place to visit rests. Currently, Portugal is investing heavily in renewable energy from solar, wind, and wave power in order to account for about 50 percent of its electricity needs by 2010. Portugal opened the world's largest solar power plant and the world's first commercial wave power farm in 2006.

   An American documentary film on Portugal produced in the 1970s described this little country as having "a Past in Search of a Future." In the years after the Revolution of 25 April 1974, it could be said that Portugal is now living in "a Present in Search of a Future." Increasingly, that future lies in Europe as an active and productive member of the EU.

machine

станок; машина || обрабатывать на станке

away from the machine — вне станка

machine for production of core stock from laths — лущильный станок

machine is out of alignment — станок потерял геометрическую точность

to machine all over — обрабатывать ( изделие) кругом

to balance machine workloads — выравнивать загрузку станков

to CNC machine — обрабатывать на станке с ЧПУ, обрабатывать на станке с ЧПУ типа CNC, обрабатывать изделие на станке с ЧПУ, обрабатывать изделие на станке с ЧПУ типа CNC

to configure machines into an integrated cell — компоновать станки в составе ГАУ

to dry run the machine — управлять станком на холостом ходу ( без обработки)

to fix a machine — налаживать станок; ремонтировать станок

to machine off — срезать; отрезать

to machine the feature — обрабатывать элемент, обрабатывать элемент изделия

to program the machine — программировать ( обработку) на станке

to put the machine out of operation — останавливать станок

to recalibrate the machine for wear — перенастраивать станок для компенсации износа

to render machine inoperative — останавливать станок

to tend the machine — обслуживать станок

to trial machine — обрабатывать на пробном проходе

machine with sliding frame — станок с подвижной рамой, станок с перемещающейся рамой

machine with traveling table for shaping — станок с подвижным столом для раскроя по формату, станок с перемещающимся столом для раскроя по формату

- overhead way machine

- 2 m3 machine
- 3-axis NC machine
- 50-taper machine
- 630-mm-class machine
- 90º plate shearing machine
- 90º sheet shearing machine
- above resonance-balancing machine
- abrasion testing machine
- abrasive belt head machine
- abrasive belt-grinding machine
- abrasive cold-sawing machine
- abrasive cutting-off machine
- abrasive disk machine
- abrasive electrochemical machine
- abrasive metal-cutting machine
- abrasive wear-testing machine
- AC machine
- accounting machine
- acyclic machine
- adapting machine
- adaptive control machine
- adaptive controlled machine
- adding machine
- adjustable multiple-spindle drilling machine
- adjustable rail machine
- adjustable rail milling machine
- advanced technology machine
- air-drying machine
- airspace profiling machine
- align boring machine
- all-electric machine
- all-geared machine
- all-hydraulic machine
- all-purpose machine
- all-steel machine
- alterating impact testing machine
- alterating stress testing machine
- aluminum machine
- analog machine
- ancillary inspection machine
- angle straightening machine
- angle-bending machine
- angle-iron bending machine
- angle-iron shearing machine
- anthropomorphic machine
- arm tapping machine
- armoring machine
- articulating arm tapping machine
- artificial intelligence-driven machine
- AS/R machine
- aspheric diamond turning machine
- assembling machine
- assembly machine
- ATC machine
- ATC-equipped machine
- atomic X-ray machine
- attrition testing machine
- autochucking machine
- automatic arc welding machine
- automatic assembly machine
- automatic bar machine
- automatic buffing machine
- automatic chucking machine
- automatic chucking-and-turning machine
- automatic continuous drum milling machine
- automatic data processing machine
- automatic drill fluting machine
- automatic forging machine
- automatic gas-cutting machine
- automatic gas-welding machine
- automatic machine
- automatic metal forming machine
- automatic polishing machine
- automatic punching machine
- automatic screw machine
- automatic straightening and cutting machine
- automatic strip-straightening machine
- automatic tapping machine
- automatic toolchanger machine
- automatic toolchanging machine
- automatic turret machine
- axial fatigue machine
- axis-controlled machine
- axle turning machine
- balancing machine
- baling machine
- ball race grinding machine
- ball screw machine
- ball-grinding machine
- ball-hardness testing machine
- balling machine
- band cutoff machine
- band machine
- band metal shearing machine
- band-filing machine
- band-grinding machine
- banding machine
- band-polishing machine
- bandsaw blade grinding machine
- bandsaw machine
- bandsaw welding machine
- bandsaw-brazing machine
- bandsawing machine
- bandsaw-sharpening machine
- bar automatic turning machine
- bar feed machine
- bar feed turning machine
- bar machine
- bar-and-chucking machine
- bar-and-chucking turning machine
- bar-and-tube straightening machine
- bar-bending machine
- bar-chamfering machine
- bar-cutting machine
- bar-pointing machine
- bar-polishing machine
- barreling machine
- bar-shearing machine
- bar-skimming machine
- bar-straightening machine
- bar-tagging machine
- bar-type boring machine
- base-type milling machine
- basic machine
- batch-produced machine
- battery spot-welding machine
- beading machine
- bearing roller lapping machine
- bed-type configuration machine
- bed-type drilling machine
- bed-type machine
- bed-type milling machine
- below resonance balancing machine
- belt-driven machine
- belt-grinding machine
- belt-polishing machine
- bench-grinding machine
- bench-mounted machine
- bench-top machine
- bench-type machine
- bending and forming machine
- bending machine
- between-centers turning machine
- bevel gear hobbing machine for spiral bevel gears
- bevel gear hobbing machine for straight gears
- bevel gear lapping machine
- bevel gear making machine
- bevel gear testing machine
- bevel grinding machine
- beveling machine
- bidirectional broaching machine
- binding machine
- bipedal walking machine
- bitting machine
- blade-edging machine
- blade-grinding machine
- blanking machine
- blending machine
- blind spline broach machine
- blind spline broaching machine
- block-and-head broaching machine
- blocked machine
- blower machine
- blowing machine
- blow-ramming molding machine
- blue-print machine
- blue-printing machine
- bobbin machine
- bolt head forging machine
- bolting machine
- bolt-maker machine
- bolt-making machine
- bolt-pointing machine
- bolt-screwing machine
- bolt-threading machine
- bolt-upsetting machine
- bonded machine
- bore centerless grinding machine
- bore-sizing machine
- bore-slotting machine
- boring and milling machine
- boring machine
- boring/facing machine
- boring, drilling and milling machine
- boring, milling and drilling machine
- bottleneck machine
- box-column drilling machine
- bracket-drilling machine
- bracket-milling machine
- braiding machine
- brazing machine
- breaking machine
- bridge machine
- Bridgeport milling machine
- bridge-type milling machine
- Brinell's machine
- broach pulldown machine
- broach-and-center machine
- broach-grinding machine
- broaching tool sharpening machine
- broach-sharpening machine
- brushing machine
- buffing machine
- built-from-scratch machine
- bunching machine
- burn machine
- burning machine
- burnishing machine
- burr-cutting machine
- burring machine
- busy machine
- butt-seam welding machine
- butt-welding machine
- by-level broaching machine
- cabinet-based machine
- cable tension testing machine
- cable-making machine
- cable-stranding machine
- cam automatic screw machine
- cam machine
- cam-controlled machine
- cam-controlled screw machine
- cam-cutting machine
- cam-driven machine
- cam-driven screw machine
- cam-grinding machine
- cam-measuring machine
- cammed screw machine
- cam-milling machine
- cam-operated screw machine
- camshaft-grinding machine
- capable machine
- capacitor discharge spot-welding machine
- capacitor spot-welding machine
- capstan drive machine
- car wheel grinding machine
- carbide tool grinding machine
- carbide tool lapping machine
- carousel machine
- cast iron machine
- cast machine
- casting cleaning machine
- casting machine
- casting washing machine
- cavity sinking EDM machine
- cell machine
- center column rotary index machine
- center column rotary indexing machine
- center hole grinding machine
- center hole lapping machine
- center-drilling machine
- centerdrive machine
- centering and end facing machine
- centering and facing machine
- centering machine
- centerless bar turning machine
- centerless cylindrical grinding machine
- centerless grinding machine
- centerless lapping machine
- centerless polishing machine
- centerless turning machine
- center-type machine
- center-type turning machine
- centrifugal babbiting machine
- centrifugal casting machine
- centrifugal machine
- centrifugal sand-throwing machine
- ceramic-cutting machine
- chain broaching machine
- chain making machine
- chain shotblasting machine
- chain tension testing machine
- chain testing machine
- chain-operated broaching machine
- chamfering machine
- charge-discharge machine
- Charpy impact machine
- Charpy machine
- charting machine
- check balancing machine
- checking machine
- chip-making machine
- chip-producing machine
- chucker machine
- chucker-and-bar machine
- chucking machine
- circle cutting machine
- circuit board drilling machine
- circular cold sawing machine
- circular continuous milling machine
- circular cutoff machine
- circular dividing machine
- circular graduating machine
- circular grinding machine
- circular hot sawing machine
- circular saw blade grinding machine
- circular saw sharpening machine
- circular sawing machine
- circular seam-welding machine
- circumferential seam-welding machine
- cleaning machine
- closing machine
- CNC high-speed routing machine
- CNC machine
- CNC screw machine
- CNC Swiss-type screw machine
- CNC/CMM machine
- CNC-manual machine
- CNC-operated machine
- CNC-retrofitted machine
- CO2 laser cutting machine
- coil banding machine
- coil downending machine
- coiling machine
- coil-processing machine
- coil-strapping machine
- coil-stripping machine
- coil-winding machine
- coil-wrapping machine
- cold saw-cutting-off machine
- cold thread rolling machine
- cold upsetting machine
- cold-chamber die-casting machine
- cold-forging machine
- cold-forming machine
- cold-heading machine
- cold-sawing machine
- collecting machine
- column drilling machine
- column-and-knee-type machine
- column-and-knee-type milling machine
- combination jarring squeezing molding machine
- combined boring-and-honing machine
- combined curve-cutting and nibbling machine
- combined gear hobbing and gear shaping machine
- combined machine
- combined milling-turning machine
- combined planing-and-milling machine
- combined shearing machine
- combined surface planing and thicknessing machine
- combined vertical and horizontal broaching machine
- commercial machine
- commutator machine
- complementary machines
- component cleaning machine
- component insertion machine
- composite boring-and-honing machine
- compound machine
- compound table machine
- compound universal milling machine
- compressed air driven machine
- compressed gas machine
- compression-testing machine
- compression-type machine
- computer-controlled industrial machine
- computer-controlled machine
- computerized machine
- computing machine
- condenser spot-welding machine
- cone pulley machine
- conical rotor machine
- constant cycling machine
- container erecting-and-forming machine
- container-cleaning machine
- container-washing machine
- continuous chain broaching machine
- continuous drum milling machine
- continuous motion machine
- continuous motion orienting-and-tapping machine
- continuous path NC machine
- continuous path tape controlled machine
- continuous roll-forming machine
- continuous rotary milling machine
- continuous tapping machine
- continuous wire EDM machine
- continuous wire machine
- continuous-casting machine with bending discharge
- continuous-casting machine
- continuously running machine
- contour band machine
- contour production machine
- contour squeeze molding machine
- contouring band machine
- contouring machine
- contour-milling machine
- contour-shaping machine
- controlling machine
- conventional machine
- conventional manually-operated machine
- conventionally operated machine
- converted lathe-and-milling machine
- converted machine
- convertible planing machine
- conveying machine
- cooling machine
- coordinate boring machine
- coordinate boring-and-milling machine
- coordinate drilling machine
- coordinate drilling-boring-and-milling machine
- coordinate inspection machine
- coordinate measuring machine
- coping machine
- copy control machine
- copy grinding machine
- copying machine
- copy-milling machine
- copy-piercing machine
- copy-planing machine
- core blowing machine
- core jarring machine
- core shooting machine
- core wire straightening machine
- core-making machine
- corrosion-fatigue testing machine
- corrugating machine
- countersink machine
- countersinking machine
- coupling machine
- crack detection machine
- crankpin-turning machine
- crankshaft-balancing machine
- crankshaft-grinding machine
- crankshaft-lapping machine
- crankshaft-milling machine
- crankshaft-regrinding machine
- crank-shaping machine
- crank-slotting machine
- creasing machine
- creep feed grinding machine
- creep testing machine
- crimping machine
- crocodile shearing machine
- cropping machine
- cross roll-forging machine
- cross-wire welding machine
- crosswise veneer splicing machine
- crushing machine
- cupping machine
- curling machine
- curtain coating machine
- curve-cutting machine
- curved tooth bevel gear cutting machine
- curve-milling machine
- curvilinear slotting machine
- curving machine
- custom metalcutting machine
- custom-assembled machine
- custom-build machine
- customized machine
- cutoff band machine
- cutoff machine
- cutter inspection machine
- cutter-checking machine
- cutter-grinding machine
- cutter-relieving machine
- cutting machine with coordinate drive
- cutting machine
- cutting-off machine
- cylinder-boring machine
- cylinder-grinding machine
- cylinder-honing machine
- cylindrical coordinate-measuring machine
- cylindrical external grinding machine
- cylindrical gear hobbing machine
- cylindrical gear shaping machine
- cylindrical rotor machine
- cylindrical turning machine
- cylindrical-die thread-rolling machine
- data processing machine
- database machine
- DCC coordinate measuring machine
- De Levaud casting machine
- deburring machine
- decoiling machine
- dedicated proving machine
- dedicated special machine
- deencapsulation machine
- deep drawing machine
- deep hole boring machine
- deep hole drilling machine
- deep hole drilling/boring machine
- deep rolling machine
- defective machine
- degreasing machine
- descaling machine
- deseaming machine
- desktop machine
- destination machine
- detangling machine
- detwisting machine
- development machine
- dial machine
- dial-index machine
- dial-indexing machine
- dial-type machine
- dial-type transfer machine
- diamond die polishing machine
- diamond machine
- diamond pyramid hardness machine
- diamond-boring machine
- diamond-contouring machine
- diamond-honing machine
- diamond-impregnated wire cutting machine
- diamond-turning machine
- die head chaser grinding machine
- die-and-mold grinding machine
- die-casting machine
- die-filing machine
- die-grinding machine
- die-milling machine
- die-polishing machine
- die-ripping machine
- die-shaping machine
- die-sinking and hole-contouring machine
- die-sinking machine
- die-sinking milling machine
- die-sinking spark erosion machine
- die-stamping machine
- digging machine
- digitizing and scanning machine
- digitizing machine
- digitizing/cutting machine
- digitizing-metalcutting machine
- dimensional gaging machine
- direct computer controlled machine
- direct current commutator machine
- direct stress machine
- direct stress testing machine
- direct-drive machine
- discharge machine
- disk machine
- disk sanding machine
- disk-cutting machine
- disk-grinding machine
- disk-resurfacing machine
- dividing machine
- DMM machine
- DNC-controlled machine
- DNC-like machine
- DNC-supported machine
- double duplex milling machine
- double portal cutting machine
- double wheel lapping machine
- double-cantilever cutting machine
- double-column milling machine
- double-column planing machine
- double-column slideway grinding machine
- double-disk grinding machine
- double-end facing-and-centering machine
- double-end fine boring machine
- double-end grinding machine
- double-end machine
- double-end mill-and-centering machine
- double-end milling machine
- double-ended centering and end-facing machine
- double-ended centering machine
- double-ended drilling machine
- double-ended machine
- double-ended milling machine
- double-faced mill-and-centering machine
- double-fed asynchronous machine
- double-gantry milling machine
- double-head machine
- double-housing machine
- double-housing milling machine
- double-lap lapping and polishing machine
- double-punching machine
- double-ram vertical broaching machine
- double-roll forming machine
- double-shaping machine
- double-slide vertical broaching machine
- double-strand pig machine
- dovetailing machine
- dowel-insert machine
- down machine
- downstroking machine
- drafting machine
- draw machine
- drawing machine
- dream machine
- dressing machine
- drill and tap machine
- drill fluting machine
- drill machine
- drill press machine
- drill/tap machine
- drill-grinding machine
- drillhead-changing machine
- drilling machine
- drilling, milling and boring machine
- drilling-and-boring machine
- drilling-and-counterboring machine
- drilling-and-milling machine
- drilling-and-routing machine
- drilling-and-tapping machine
- drilling-and-threading machine
- drilling-tapping machine
- drill-layout machine
- drooping-characteristic machine
- drop-testing machine
- drum-type continuous milling machine
- drum-type milling machine
- dry cutting machine
- dry-floor machine
- drying machine
- dual co-axial spindle and subspindle turning machine
- dual controlled manual/CNC machine
- dual machine
- dual planing-and-milling machine
- dual-gantry machine
- dual-head machine
- dual-pallet machine
- dual-purpose machine
- dual-ram surface-broaching machine
- dual-station machine
- ductility testing machine
- dummy machine
- dumping molding machine
- duplex machine for rail ends
- duplex machine
- duplex multiple spindle machine
- duplex vertical broaching machine
- duplex-head milling machine
- duplex-manufacturing bed-type milling machine
- duplex-type of surface broaching machine
- duplicating machine
- duplicating milling machine
- dynamic balancing machine
- eager-beaver pulldown broaching machine
- earth-moving machine
- EB welding machine
- ECM machine
- economically priced machine
- ED grinding machine
- ED wire cutting machine
- ED-copying machine
- ED-cutting-off machine
- eddy current machine
- eddy current test machine
- edge-beveling machine
- edge-chamfering machine
- edge-cutting machine
- edge-knurling machine
- edge-milling machine
- edge-planing machine
- edge-trimming machine
- edging machine
- EDM diesinking machine
- EDM machine
- EDM texturing machine
- EDM wire machine
- EDM wire-cut machine
- ED-sinking machine
- educational machine
- efficiency testing machine
- eight-axis NC machine
- electric drive machine
- electric machine
- electric molding machine
- electrical discharge die-sinking and hole-contouring machine
- electrical discharge machine
- electrical discharge outcutting machine
- electrical discharge profiling machine
- electrically-operated machine
- electric-spark cutting machine
- electrochemical grinding machine
- electrode feeding machine
- electro-discharge drilling machine
- electro-discharge grinding machine
- electrolytic grinding machine
- electrolytic machine
- electrolytic tinning machine
- electrolytically assisted cutting-off machine
- electrolytically assisted machine
- electromagnetic molding machine
- electron beam drilling machine
- electron beam machine
- electron beam welding machine
- electronic data processing machine
- electroplating machine
- electrostatic stored-energy machine
- elevating beam boring machine
- elevating head milling machine
- elevating machine
- elevating rail machine
- elevator machine
- embossing machine
- encapsulating machine
- end preparation machine
- end-finishing machine
- end-finishing-centering machine
- end-grinding machine
- ending-and-centering machine
- end-turning machine
- endurance testing machine for repeated torsion
- endurance testing machine
- end-working machine
- energy machine
- energy transforming machine
- energy-intensive machine
- engraving form duplicating machine
- engraving machine
- engraving-type form duplicating machine
- Erichsen cupping machine
- Erichsen ductility machine
- eroding machine
- erosion machine
- etch machine
- etching machine
- exhibited machine
- expanding machine
- explosive force molding machine
- extended-travel machine
- extension machine
- external angular plunge grinding machine
- external broaching machine
- external cylindrical centerless grinding machine
- external grinding machine
- external honing machine
- extracting machine
- extruding machine
- extrusion machine
- face-grinding machine
- face-milling machine
- facing machine
- facing-and-centering machine
- facsimile machine
- failed machine
- falling weight testing machine
- fastener tapping-and-orienting machine
- fatigue bending machine
- fatigue testing machine for alternating torsion
- fatigue testing machine
- fault detection machine
- fax machine
- feedback machine
- field-tested machine
- file-cutting machine
- file-testing machine
- filing machine
- filing-and-sawing machine
- filling machine
- fine boring machine
- fine countersinking machine
- fine-blanking machine
- finish boring machine
- finishing machine
- finite memory machine
- finite state machine
- first-off machine
- fir-tree broachinng machine
- fir-tree milling machine
- five-side machine
- five-sided machine
- fixed beam machine
- fixed bed milling machine
- fixed bed-type milling machine
- fixed cycle machine
- fixed machine
- fixed post machine
- fixed sequence machine
- fixed weighing machine
- fixed-column machine
- fixed-table machine
- flame-cutting machine
- flame-profiling machine
- flanging machine
- flash butt-welding machine
- flat die thread-rolling machine
- flattening machine
- flexible assembly machine
- flexible machine
- flexible shaft filing machine
- flexible transfer machine
- flexing machine
- floor charging machine
- floor horizontal boring machine
- floor machine
- floor-type horizontal boring machine
- floor-type machine
- floor-type stripper machine
- flotation machine
- Floturn machine
- flowturning machine
- FLS machine
- fluid-actuated machine
- fluid-feed machine
- flute-grinding machine
- flute-milling machine
- fluting machine
- flying cutoff machine
- FM machine
- FMS machine
- FMS-capable machine
- foil butt-seam welding machine
- folding machine
- foot-operated welding machine
- forge rolling machine
- forging machine
- form cutter milling machine
- form-duplicating machine
- form-grinding machine
- forming machine
- form-milling machine
- form-testing machine
- foundry machine
- four-ball machine
- four-pallet machine
- four-roll bending machine
- four-roll forming machine
- four-roll sheet bending machine
- four-strand continuous casting machine
- friction disk sawing machine
- front-loading turning machine
- front-operated turning machine
- full-automatic turret screw machine
- furnace hoisting machine
- furnace-threading machine
- fusion cutting-off machine
- gaging machine
- gag-straightening machine
- galvanizing machine
- gang drilling machine
- gang slitting machine
- ganghead replaceable-type machine
- gangspindle drilling machine
- gang-tooled machine
- gang-type drilling machine
- gantry cutting machine
- gantry-loaded machine
- gantry-type machine
- gantry-type milling machine
- gantry-type plano-milling machine
- gas-cutting machine
- gear cutter grinding machine
- gear fine processing machine
- gear grinding and polishing machine
- gear lapping and polishing machine
- gear machine
- gear profile grinding machine
- gear tooth chamfering machine
- gear tooth grinding machine
- gear tooth inspection machine
- gear tooth rounding machine
- gear-burnishing machine
- gear-chamfering machine
- gear-checking machine
- gear-cutting machine
- gear-deburring machine
- geared head machine
- gear-finishing machine
- gear-grinding machine
- gear-hardening machine
- gear-hobbing machine for spur gears
- gear-hobbing machine
- gear-honing machine
- gear-lapping machine
- gear-making machine
- gear-manufacturing machine
- gear-measuring machine
- gear-milling machine
- gear-polishing machine
- gear-producing machine
- gear-rolling machine
- gear-shaping machine
- gear-shaving machine
- gear-sizing machine
- gear-testing machine
- general-purpose flat surface broaching machine
- general-purpose machine
- generating machine
- gilding machine
- gimbals head rolling machine
- gold rolling machine
- grading machine
- grinder-milling machine
- grinding machine for drill bits
- grinding machine with rotating column
- grinding machine
- grinding-and-lapping machine
- grinding-and-polishing machine
- grooving machine
- G-Tech machine
- Guillotine knife grinding machine for long knives
- Guillotine knife grinding machine
- gun-boring machine
- gun-drill machine
- gun-drilling machine
- gun-rifling machine
- gun-welding machine
- hacksawing machine
- half-NC machine
- hammer impact machine
- hammering machine
- hand-driven cutting machine
- hand-fed machine
- hand-held machine
- hand-load machine
- hand-milling machine
- hand-operated molding machine
- hand-operated press-molding machine
- hand-operated squeezing machine
- hard bearing balancing machine
- hard X-ray machine
- hardening machine
- hardness-testing machine
- hardwired NC machine
- Hazellet continuous strip casting machine
- head-changer machine
- head-changing machine
- heading machine
- headstock moving-type automatic screw machine
- head-to-head machines
- heating machine
- heavy machine
- heavy-duty machine
- heavy-hogging machine
- hexapod machine
- high-accuracy machine
- high-energy-rate forging machine
- high-energy-rate machine
- high-frequency ac welding machine
- high-frequency hardening machine
- highly accurate machine
- highly productive machine
- high-performance machine
- high-precision machine
- high-production machine
- high-productivity machine
- high-specification machine
- high-speed drafting machine
- high-speed machine
- high-speed spindle machine
- high-technology machine
- high-temperature fatigue testing machine
- high-velocity ram machine
- high-volume machine
- hinged roll-over machine
- hitch-feed cut-off machine
- HNC machine
- hob back-off machine
- hob tooth profile grinding machine
- hobbing machine
- hob-grinding machine
- hob-sharpening machine
- hoisting machine
- hole milling-and-reaming machine
- hole-making machine
- hole-punching machine
- hone machine
- honing machine
- honing-and-lapping machine
- horizontal arm measuring machine
- horizontal band machine
- horizontal bar machine
- horizontal boring machine
- horizontal broaching machine
- horizontal casting machine
- horizontal continuous broaching machine
- horizontal continuous drilling machine
- horizontal forging machine
- horizontal indexing machine
- horizontal internal broaching machine
- horizontal machine
- horizontal milling machine
- horizontal plate-bending machine
- horizontal punching machine
- horizontal ram machine
- horizontal shaping machine
- horizontal slotting machine
- horizontal spindle surface grinding machine
- horizontal square T-planer type milling machine
- horizontal-type machine
- horizontal-vertical milling machine
- hose-type sandblast tank machine
- host machine
- hot plate straightening machine
- hot-box core-making machine
- hot-chamber die-casting machine
- hot-heading machine
- hot-metal sawing machine
- hsc machine
- hybrid machine
- hydraulic axis machine
- hydraulic balancing machine
- hydraulic bloom shearing machine
- hydraulic core knockout machine
- hydraulic machine
- hydraulic molding machine
- hydraulic pipe testing machine
- hydraulic riveting machine
- hydraulic shearing machine
- hydraulic squeeze machine
- hydraulically-assisted machine
- hydraulically-driven machine
- hydraulically-powered machine
- hydraulic-assisted machine
- hydraulic-driven machine
- hydraulic-electric machine
- hydraulic-powered machine
- hydro-copying machine
- hydrostatic machine
- hydrostatic-extrusion machine
- imitation machine
- impact machine
- impact pendulum-type testing machine
- impact tension machine
- impact-test machine
- impact-testing machine
- impulse-cutting machine
- impulse-forming machine
- impulsive machine
- inclined tapping machine
- indentation machine
- index machine
- index milling machine
- indexer machine
- indexing chuck machine
- indexing drum milling machine
- indexing head machine
- indexing machine
- indexing turret machine
- induction hardening machine
- induction softening machine
- industrial machine
- informational machine
- ingot stripper machine
- ingot-planing machine
- ingot-scalping machine
- ingot-slicing machine
- injection-molding machine
- in-line machine
- in-line synchronous machine
- in-line transfer machine
- innovative machine
- inspection and measuring machine
- inspection machine
- integrated turning/milling machine
- intelligent machine
- intermittently manned machine
- internal broaching machine
- internal grinding machine
- internal grooving machine
- internal keyseating machine
- internal lapping machine
- internal planetary-type grinding machine
- internal thread grinding machine
- internal-and-external broaching machine
- internal-external inspection machine
- internal-part-transfer vertical broaching machine
- inverted vertical turning machine
- involute profile measuring machine
- ion beam machine
- iron shearing machine
- jar molding machine
- jar ramming machine
- jar ramming roll-over molding machine
- jarring machine
- jig milling machine
- jig-borer-class machine
- jig-boring machine
- jig-drilling machine
- jig-grinding machine
- jigless machine
- job-dedicated machine
- joggling machine
- jointed arm drilling machine
- jolt core-making machine
- jolt molding machine
- jolt pattern-draw molding machine
- jolt roll-over pattern-draw molding machine
- jolt squeeze molding machine
- journal-milling machine
- journal-turning machine
- Kenyon machine
- key machine
- key-and-slot milling machine
- key-bitting machine
- key-cutting machine
- key-duplicating machine
- keyseating and slot milling machine
- keyseating machine
- keyseating milling machine
- keyway-cutting machine
- keyway-milling machine
- keyway-seating machine
- keyway-slotting machine
- kneading machine
- knee-and-column machine
- knee-and-column milling machine
- knee-and-column-type milling machine
- kneeless-type milling machine
- knee-type machine
- knee-type milling machine
- knife-grinding machine
- knitting machine
- knurling machine
- labeling machine
- lamination segments blanking machine
- lapping and polishing machine
- lapping machine
- large-dimensioned machine
- large-scale machine
- large-size machine
- laser beam cutting machine
- laser beam machine
- laser die-sinking machine
- laser etch machine
- laser etching machine
- laser-assisted machine
- laser-controlled machine
- laser-cutting machine
- laser-hardening machine
- laser-scribing machine
- lathe machine
- laying-out machine
- lay-out machine
- lead screw tapping machine
- lead screw testing machine
- leakage-testing machine
- lens-grinding machine
- letter and paper cup machine
- leveling machine
- lever punching machine
- lever testing machine
- leverage proportioned tracing milling machine
- lever-type Brinell machine
- lifting machine
- light machine
- light production machine
- light-duty machine
- lightly manned machine
- light-weight machine
- limited-interference machine
- linear path-controlled machine
- linear station machine
- line-boring machine
- line-controlled machine
- live spindle machine
- lock-seaming machine
- long travel machine
- long-feed cut-off machine
- longitudinal circular cold sawing machine
- longitudinal dividing machine
- longitudinal grinding machine
- longitudinal seam-welding machine
- long-lasting machine
- long-running machine
- long-stroke broaching machine
- long-stroke machine
- long-term strength testing machine
- low-pressure die-casting machine
- machine of compact construction
- machine of dieing design
- machine of the state of the art
- machining machine
- magazine bar feed machine
- magnetic cobbing machine
- magnetic force welding machine
- magnetic forming machine
- maintenance-free machine
- manual machine
- manual-CNC machine
- manual-CNC turning machine
- manually controlled machine
- manually jogged machine
- manually tended machine
- manual-toolchange machine
- manufacturing bed-type milling machine
- manufacturing machine
- manufacturing milling machine
- manufacturing-oriented machine
- manufacturing-type machine
- marking machine
- marking-off machine
- marking-out machine
- mass centering machine
- mass-production machine
- master machine
- match-plate molding machine
- material testing machine
- material-cutting machine
- MDI-controlled machine
- measurement machine
- measuring machine
- mechanical drive machine
- mechanically driven machine
- medium duty machine
- medium travel machine
- mesh-welding machine
- metal slitting machine
- metal testing machine
- metal-cutting machine
- metal-folding machine
- metal-forming machine
- metal-planing machine
- metal-removing machine
- metal-sawing machine
- metal-working machine
- metamorphic machine
- metrology machine
- microcomputer-based NC machine
- microdrilling machine
- microfinishing machine
- micromilling machine
- microscopic drilling machine
- mill/turn machine
- mill-drill-bore machine
- milling cutter grinding machine
- milling machine with table of fixed height and with vertical spindle
- milling machine with table of variable height and with horizontal spindle
- milling machine with table of variable height
- milling machine
- milling/drilling machine
- milling/turning machine
- milling-and-boring machine
- milling-and-centering machine
- minicomputer-controlled machine
- minicoordinate boring machine
- minicoordinate drilling machine
- miter saw machine
- miter-cutting machine
- mitering saw machine
- mixing machine
- mobile gantry-type machine
- mobile weighing machine
- mock-up machine
- model engineers milling machine
- modular industrial machine
- modular machine
- modular-type machine
- molding machine
- mortising machine
- motor-driven welding machine
- movable bridge machine
- movable column machine
- movable saddle machine
- moving bridge machine
- moving column/fixed table machine
- moving machine
- moving table machine
- multiaxis machine
- multidie machine
- multidisciplinary machine
- multidrilling machine
- multifunction machine
- multihead automatic arc-welding machine
- multihead changer machine
- multihead machine
- multihead milling machine
- multiloaded machine
- multioperation machine
- multioperational machine
- multipallet machine
- multiple machines
- multiple secondary-operation machine
- multiple second-operation machine
- multiple-beam flame planing machine
- multiple-blowpipe machine
- multiple-broach broaching machine
- multiple-burner machine
- multiple-diameter grinding machine
- multiple-diameter turning machine
- multiple-head broaching machine
- multiple-head drilling machine
- multiple-operation machine
- multiple-purpose machine
- multiple-roll machine
- multiple-spindle automatic machine
- multiple-spindle bar machine
- multiple-spindle machine
- multiple-spot welding machine
- multiple-station machine
- multiple-station transfer machine
- multiple-table milling machine
- multiple-torch machine
- multiple-transformer machine
- multiple-transformer spot-welding machine
- multiproduct machine
- multipurpose broaching machine
- multipurpose shearing machine
- multireduction wire-drawing machine
- multiroll bar straightening machine
- multiroller machine
- multisensor coordinate machine
- multispecimen testing machine
- multispindle automatic screw machine
- multispindle bar machine
- multispindle head machine
- multispindle head-changing machine
- multispindle screw machine
- multispot machine
- multistation indexing transfer machine
- multistation machine
- multisurface machine
- multitool turning machine
- multiunit drilling machine
- multiuniversal machine
- multiway drilling machine
- nail-making machine
- narrow belt sanding machine
- NC machine
- needle die grinding machine
- needle die polishing machine
- nibbling machine
- nibbling, milling and punching machine
- nipple-threading machine
- No.40-taper-tool machine
- No.50-taper machine
- noncantilevered machine
- nonferrous sawing machine
- non-NC machine
- nonstock machine
- nonsystem machine
- normal accuracy machine
- normal manned NC machine
- notching machine
- numbering machine
- nut-castellating machine
- nut-chamfering machine
- nut-deburring machine
- nut-facing machine
- nut-making machine
- nut-running machine
- nut-setting machine
- nut-shaping machine
- nut-tapping machine
- nut-threading machine
- OD grinding machine
- OD machine
- off-line machine
- offset milling machine
- off-site machine
- oil hydraulic machine
- oil roll machine
- oil-grooving machine
- oiling machine
- omnimil versatile machine
- one-axis machine
- one-head automatic arc-welding machine
- one-hit machine
- one-meter machine
- one-off machine
- one-operator machine
- on-line machine
- open-side milling machine
- open-side planing machine
- open-side plano-milling machine
- open-sided milling machine
- operator-independent machine
- operator-initiated machine
- operator-positionable machine
- operator-programmed machine
- opposed spindle machine
- optical jig boring machine
- optical pattern tracing machine
- optical profile grinding machine
- optical reading machine
- original equipment CNC machine
- orthodox machine
- orthogonally movable machine
- oscillating bandsaw machine
- other machines
- outfacing machine
- outmoded machine
- out-of-alignment machine
- overdesigned machine
- overhead gantry machine
- overhead grinding machine
- overhead recessing machine
- overhead traveling drilling machine
- overwrapping machine
- own-use machine
- oxyacetylene-cutting machine
- oxyfuel burn machine
- packaging machine
- pack-checking machine
- packing machine
- paddle blade-type mixing machine
- paint machine
- pallet pool machine
- pallet shuttle machine
- pallet transfer machine
- pallet-change machine
- palletized machine
- pallet-loading machine
- pallet-type transfer machine
- pantograph-engraving machine
- pantographic engraving machine
- pantograph-type milling machine
- paper-cutting machine
- parting machine
- part-transfer vertical broaching machine
- pattern draw machine
- pattern milling machine
- pattern-controlled machine
- pattern-tracing machine
- PCB machine
- PCB-drilling machine
- PC-equipped machine
- PC-governed machine
- pedal-operated welding machine
- pedal-triggered machine
- pedestal spot-welding machine
- pedestal-drilling machine
- pedestal-grinding machine
- peeling machine
- peening machine
- pendant controlled machine
- pendulum impact testing machine
- percussion-welding machine
- perforating machine
- periodic machine
- physico-chemical machine
- pick-and-place machine
- pickling machine
- piercing machine
- pig casting machine
- pillar-drilling machine
- pilot machine
- pincer spot-welding machine
- pinion-generating machine
- pin-lift molding machine
- pin-making machine
- pin-on-disk wear test machine
- pipe cut-off machine
- pipe-bending machine
- pipe-beveling machine
- pipe-beveling/cutting machine
- pipe-chamfering machine
- pipe-cropping machine
- pipe-crushing machine
- pipe-cutting machine
- pipe-expanding machine
- pipe-facing machine
- pipe-flanging machine
- pipe-flaring machine
- pipe-swabbing machine
- pipe-testing machine
- pipe-threading machine
- pipe-welding machine
- piston contouring machine
- piston ring grinding machine
- piston-turning machine
- pit planing machine
- pit-based broaching machine
- pit-type planing machine
- pivot-head machine
- placing machine
- plain grinding machine
- plain horizontal knee-type milling machine
- plain-way machine
- planer-type boring machine
- planer-type machine
- planer-type milling machine
- planer-type surface grinding machine
- planetary grinding machine
- planetary milling machine
- planetary-type thread milling machine
- planing machine
- planing-and-milling machine
- planomilling machine
- plano-type boring-and-milling machine
- plano-type surface grinding machine
- plasma arc machine
- plasma-cutting machine
- plastics extrusion machine
- plate-bending machine
- plate-cutting machine
- plate-edge beveling machine
- plate-edge planing machine
- plate-fabricating machine
- plate-flanging machine
- plate-flattening machine
- plate-leveling machine
- platen TL machine
- platen-tooled machine
- plate-punching machine
- plate-shearing machine
- plate-straightening machine
- plate-working machine
- platform weighing machine
- plating machine
- plier spot-welding machine
- plugboard/capstan machine
- plugboard-control machine
- plugboard-controlled machine
- plug-ramming machine
- plunge-grinding machine
- plunger core machine
- plunger-type pickling machine
- pneumatic hand machine
- pneumatic machine
- pneumatic molding machine
- pointing machine
- pointing rolling machine
- point-to-point NC machine
- polishing machine
- polygonal turning machine
- polyvalent machine
- portable facing machine
- portable machine
- portable milling machine
- portable valve grinding machine
- portal cutting machine
- portal machine
- portal-frame machine
- portal-type machine
- portal-type plano-milling machine with variable height cross rail
- position control machine
- positive-displacement hydraulic machine
- positive-displacement pneumatic machine
- pot-broach vertical broaching machine
- pot-broaching machine
- powder metal compacting machine
- power machine
- power-driven machine
- power-operated molding machine
- precision boring machine
- precision-controlled machine
- precision-drawing machine
- preparatory NC machine
- preset machine
- presetting machine
- press-molding machine
- press-type machine
- pressure die-casting machine
- press-welding machine
- primary turning machine
- printing machine
- prior art machine
- prior art-type machine
- prismatic coordinate inspection machine
- prismatic machine
- prismatic-type indexing machine
- process machines
- processing machine
- process-specialized machine
- production machine
- product-oriented machine
- profile measurement machine
- profile-cutting machine
- profile-grinding machine
- profile-iron bending machine
- profile-milling machine
- profiler machine
- profiling machine
- profiling milling machine
- program sequence controlled machine
- programmable machine
- programmable-controlled machine
- progressive broach machine
- projection form grinding machine
- projection welding machine
- prototype machine
- proving machine
- pull test machine
- pull-broaching machine
- pull-down broaching machine
- pulling-in machine
- pull-type broaching machine
- pull-type machine
- pull-up broaching machine
- punch machine
- punching and shearing machine
- punching machine
- purpose-built machine
- purpose-designed machine
- push-broaching machine
- push-cut shaping machine
- push-down broaching machine
- push-pull fatigue-testing machine
- push-up broaching machine
- qualifying machine
- quenching machine
- rack milling machine
- rack-and-pinion machine
- rack-and-pinion-operated machine
- radial arm-drilling machine
- radial arm-sawing machine
- radial articulated-arm cutting machine
- radial drilling machine
- radial-and-pillar drilling machine
- radiusing machine
- rail end milling machine
- rail-bending machine
- rail-cambering machine
- rail-drilling machine
- rail-straightening machine
- railway axle grinding machine
- ram impact machine
- ram milling machine
- ram-boring machine
- ram-head milling machine
- ramming molding machine
- ram-type boring and horizontal milling machine
- ram-type EDM machine
- ram-type milling machine
- ram-type tooling machine
- ratio cutting machine
- raw component measuring machine
- reading machine
- reaming machine
- reaming-and-facing machine
- recessing machine
- reciprocating cutoff machine
- reciprocating grinding machine
- reciprocating machine
- reciprocating-die machine
- reciprocating-table surface grinding machine
- recognizing machine
- recoiling machine
- rectifier-type welding machine
- redesigned machine
- reference machine
- refrigerating machine
- regrinding machine
- reinforcing bar bending machine
- reinforcing rod cropping machine
- relieving machine
- remote-control machine
- remote-controlled machine
- renewed machine
- repetitive milling machine
- replaceable gang head machine
- replacement machine
- reproducing pattern milling machine
- research-oriented machine
- resistance welding machine
- resonance-balancing machine
- resonant vibration machine
- resurfacing machine
- retapping machine
- reverse torsion fatigue testing machine
- reverse torsion machine
- rewinding machine
- rifling machine
- rigid production machine
- rigid-bed milling machine
- rigid-capable machine
- rise and fall tank machine
- rising blade machine
- rising table broaching machine
- rivet machine
- riveting machine
- robot machine
- robot-assisted machine
- robot-controlled machine
- robot-fed machine
- robotic machine
- robotically-fed machine
- robot-loaded machine
- robot-operated machine
- rock-crushing machine
- rocker-arm spot-welding machine
- rocker-type pickling machine
- Rockwell hardness machine
- Rockwell hardness-testing machine
- roll machine
- roll sheet bending machine
- roll-bending machine
- roll-end milling machine
- roller finishing machine
- roller profiling machine
- roller section-machinestraightening machine
- roller shape-machinestraightening machine
- roller spot-and-seam welding machine
- roller straightening machine
- roller-stretcher machine
- roll-fluting machine
- roll-forging machine
- roll-forming machine
- roll-grinding machine
- rolling dividing machine
- rolling machine
- rolling-and-bending machine
- rolling-on machine
- rolling-quench machine
- roll-over molding machine
- roll-over pattern-draw machine
- roll-seam welding machine
- roll-straightening machine
- roll-threading machine
- roll-turning machine
- rotary assembly machine
- rotary broaching machine
- rotary compression-type machine
- rotary continuous drum-type milling machine
- rotary continuous milling machine
- rotary dial machine
- rotary dial-index machine
- rotary disk filing machine
- rotary drum broaching machine
- rotary drum fixture milling machine
- rotary flame planing machine
- rotary head machine
- rotary indexing drum machine
- rotary indexing machine
- rotary indexing pallet machine
- rotary indexing table machine
- rotary knife cutting machine
- rotary machine
- rotary milling machine with horizontal workholder
- rotary pallet machine
- rotary planetary machine
- rotary planetary-die machine
- rotary stamping machine
- rotary surface grinding machine
- rotary table machine
- rotary tooled machine
- rotary transfer machine
- rotary welding machine
- rotary-drive machine
- rotary-driven machine
- rotary-table broaching machine
- rotary-table index machine
- rotary-table indexing machine
- rotary-table milling machine
- rotary-table surface grinding machine
- rotary-table transfer machine
- rotary-type milling machine
- rotating machine
- rotating-beam fatigue machine
- rotating-beam fatigue testing machine
- rotation machine
- rotor milling machine
- rotor slot milling machine
- rough boring machine
- rough facing machine
- rough grinding machine
- rough milling machine
- rough turning machine
- roughing machine
- round column drilling machine
- rounding machine
- roundness measuring machine
- routing milling machine
- RP machine
- rundown machine
- running balance indicating machine
- S/R machine
- saddle-type machine
- sample preparation machine
- sampling machine
- sandblast cleaning machine
- sandblast machine with stationary nozzle
- sandblast machine
- sandblast sprocket-table machine
- sand-throwing machine
- saw machine
- saw-brazing machine
- saw-cutting machine
- saw-grinding machine
- sawing machine
- saw-setting machine
- saw-sharpening machine
- saw-toothing machine
- scalping machine
- scissors-type horizontal band machine
- scissors-type horizontal machine
- scrap shearing machine
- scraping machine
- scratchbrush machine
- screening machine
- screw machine
- screw thread grinding machine
- screw thread milling machine
- screw thread rolling machine
- screw thread whirling machine
- screw-cutting machine
- screw-driving machine
- screw-head slotting machine
- screwing machine
- screw-nicking machine
- screw-shaving machine
- scribing machine
- scrubbing machine
- scrubbing-and-drying machine
- sculpturing machine
- seam-welding machine
- secondary machine
- second-operation machine
- section bending machine
- section shearing machine
- section-iron bending machine
- section-iron shearing machine
- section-straightening machine
- section-stretching machine
- segmented transfer machine
- self-controlling machine
- self-correcting machine
- semiautomatic arc welding machine
- semiautomatic gas-cutting machine
- semiautomatic grinding machine
- semiautomatic machine
- semiautomatic welding machine
- semiproduction machine
- sensitive drilling machine
- sensitive tapping machine
- separately excited machine
- sequence-controlled machine
- sequential transfer machines
- series-produced machines
- servo indexer machine
- servo slide machine
- sets-of-parts operated machine
- shaft machine
- shape-cutting machine
- shaper machine
- shape-straightening machine
- shaping machine
- sharpening machine
- shaving cutter grinding machine
- shear machine
- shearing machine
- shear-speed machine
- sheet and plate bending machine
- sheet bending machine
- sheet metal bending machine
- sheet metal cutting machine
- sheet metal folding machine
- sheet metal leveling machine
- sheet metal shearing machine
- sheet metal stamping machine
- sheet metal working machine
- sheet straightening and polishing machine
- sheet working machine
- sheet-leveling machine
- sheet-straightening machine
- shell core blowing machine
- shell molding machine
- ship propeller milling machine
- shock-and-vibration machine
- shockless jolting machine
- shopfloor machine
- shopworn machine
- show machine
- shredding machine for wood wool production
- shredding machine
- side hole drilling machine
- side-milling machine
- side-planing machine
- sieving machine
- simple-to-operate automatic machine
- simple-to-operate machine
- simplex milling machine
- simplex multiple-spindle machine
- simulation machine
- simultaneous 5-axis machine
- single wheel lapping machine
- single-address machine
- single-axis machine
- single-blade sawing machine
- single-end boring machine
- single-end centering and end-facing machine
- single-end machine
- single-end tenoning machine
- single-ended boring machine
- single-ended machine
- single-function machine
- single-gantry machine
- single-head machine
- single-hitb machine
- single-operation transfer machine
- single-piece machine
- single-point cutting-off machine
- single-position metal forming machine
- single-purpose machine
- single-shift machine
- single-shifted machine
- single-slide bed-type machine
- single-spindle machine
- single-station machine
- single-task machine
- single-upright machine
- singlex machine
- sinking machine
- six-axis NC machine
- sizing machine
- skin-milling machine
- skiving machine
- slabbing machine
- slab-milling machine
- slant-carriage machine
- slant-slide machine
- slave machine
- slicing machine
- slideway-grinding machine
- sliding bush machine
- sliding head machine
- sliding head milling machine
- sliding head/fixed spindle machine
- sliding headstock bar machine
- sliding headstock machine
- slinger molding machine
- slitting machine
- slot and keyway milling machine
- slot-drilling machine
- slot-milling machine
- slotting machine
- small capacity machine
- small-chuck machine
- small-envelope machine
- small-footprint machine
- small-parts machine
- smooth planing machine
- snagging grinding machine
- soft bearing balancing machine
- software-controlled machine
- software-oriented machine
- soldering machine
- solid bed-type milling machine
- sorting machine
- spar milling machine
- spark erosion machine
- spark machine
- special design machine
- special unit machine
- special way-type machine
- specialist machine
- specialized machine
- special-purpose machine
- specialty machine
- speed reduction machine
- spherical grinding machine
- spindle turning machine
- spinning machine
- spiral drive planing machine
- spline cold rolling machine
- spline shaft grinding machine
- spline shaft hobbing machine
- spline-broaching machine
- spline-grinding machine
- spline-hobbing machine
- spline-milling machine
- splining machine
- spring end grinding machine
- spring forming machine
- spring manufacturing machine
- spring testing machine
- spring-coiling machine
- spring-making machine
- spring-winding machine
- spur-and-helical grinding machine
- square milling machine
- squeeze core-making machine
- squeeze molding machine
- squeezing machine
- squirrel cage balancing machine
- SR machine
- stack-routing machine
- stamping machine
- standalone machine
- standard configuration machine
- standard design machine
- standard machine
- standard-unit-type machine
- static balancing machine
- station-type machine
- storage retrieval machine
- straight line milling machine
- straightening machine
- strength testing machine
- stress-relieving machine
- stress-rupture testing machine
- stretch straightening machine
- strip leveling machine
- stud thread rolling machine
- studding machine
- subspindle turning machine
- subspindle-equipped turning machine
- subspindle-type machine
- super-accurate machine
- supercharged laser cutting machine
- superfinishing machine for centerless plunge-cut
- superfinishing machine for centerless throughfeed
- superfinishing machine
- surface and profile grinding machine
- surface-broaching machine
- surface-grinding machine with long table
- surface-grinding machine with two columns
- surface-grinding machine
- surface-milling machine
- surface-treatment machine
- swage machine
- swaging machine
- swing frame grinding machine
- Swiss bar machine
- Swiss screw machine
- Swiss sliding headstock machine
- Swiss-style sliding-headstock machine
- Swiss-style sliding-headstock-type machine
- Swiss-type cam automatic screw machine
- Swiss-type machine
- Swiss-type movable headstock automatic screw machine
- Swiss-type stationary headstock automatic screw machine
- swivel head milling machine
- swivel head slotting machine
- synchronous transfer machine
- synchronous-feed machine
- system machine
- system-ready machine
- systems-compatible machine
- tabletop machine
- table-type machine
- table-uo broaching machine
- tabulating machine
- tailored machine
- tandem table machine
- tap flute milling machine
- tap fluting machine
- tap-drill machine
- tape finishing machine
- tape machine
- tape preparation machine
- tape-controlled machine
- tape-handling machine
- taper strip milling machine
- tap-grinding machine
- tapping machine
- tap-sharpening machine
- targeted machine
- teaching machine
- TEM machine
- template-controlled machine
- tenoning machine
- tensile strength testing machine
- tensile testing machine
- tension testing machine
- test machine
- test sieving machine
- testing machine
- texturing machine
- thermal cutting machine
- thermal deburrting machine
- thermally symmetric machine
- thermally symmetrical machine
- thermoelectric machine
- thread chaser grinding machine
- thread-cutting machine
- threaded wheel grinding machine
- thread-generating machine
- thread-grinding machine
- threading machine
- thread-milling machine
- thread-producing machine
- thread-rolling machine with roller and segmented die
- thread-rolling machine
- thread-tapping machine
- thread-turning machine
- thread-whirling machine
- three-axis checking machine
- three-axis digital read-out inspection machine
- three-axis NC machine
- three-axis-controlled machine
- three-dimensional forming machine
- three-dimensional NC machine
- three-dimensional profiling machine
- three-roll bending machine
- three-roll forming machine
- three-roll sheet bending machine
- three-shift machine
- three-shifted machine
- three-way machine
- tiering machine
- tilt frame machine
- tilting body slotting machine
- tilting column machine
- tilting spindle grinding machine
- tilting spindle machine
- time-tested machine
- TL machine
- TNC-milling machine
- tool and diemaker's milling machine
- tool changer machine
- tool presetting and inspection machine
- tool presetting machine
- tool-and-cutter grinding machine
- tool-grinding machine
- toolroom machine
- toolroom-milling machine
- tool-setting machine
- tooth generating machine
- tooth rounding-and-chamfering machine
- top-of-the-line machine
- torsion testing machine
- totally automated machine
- totally enclosed machine
- touch-trigger machine
- T-planer type machine
- tracer controlled machine
- tracer milling machine
- tracer-controlled electrical discharge profiling machine
- tracer-controlled milling machine
- tracer-guided machine
- tracer-guided milling machine
- tracing machine
- transfer-line-ready machine
- transfer-segmented machine
- transfer-type machine
- transport machine
- transverse planing machine
- traveling bar-type boring machine
- traveling bridge-type plano-milling machine
- traveling column machine
- traveling column-type machine
- traveling gantry machine
- traveling head shaping machine
- traveling portal milling machine
- traveling table machine
- traveling table-type machine
- traveling wire electrical discharge machine
- traveling-head boring machine
- traveling-head surface grinding machine
- traverse grinding machine
- traversing head shaping machine
- trimming machine
- trip dog-controlled machine
- triplex milling machine
- trunnion machine
- trunnion-style machine
- trunnion-type machine
- T-slot milling machine
- tube cutoff machine
- tube grinding-and-polishing machine
- tube-bending machine
- tube-boring machine
- tube-chamfering machine
- tube-drawing machine
- tube-enlarging machine
- tube-forming machine
- tube-sawing machine
- tube-straightening machine
- tube-welding machine
- tumbling machine
- turbine shot-blasting machine
- turbine slot milling machine
- turn/mill machine
- turn, bore and cut-off machine
- turn-broaching machine
- turning machine
- turning, milling and boring machine
- turning-and-boring machine
- turn-mill machine
- turn-peeling machine
- turret hole punching machine
- turret machine
- turret press machine
- turret ram milling machine
- turret screw machine
- turret-chucking machine
- turret-drilling machine
- turret-milling machine
- turret-punching machine
- turret-type drilling machine
- twin pallet machine
- twin screw knee-type machine
- twin six-station turret machine
- twin-head machine
- twin-head shaping machine
- twin-opposed spindle turning machine
- twin-overarm milling machine
- twin-spindle machine
- twin-turret machine
- twist drill flute grinding machine
- twist drill fluting machine
- twist drill grinding machine
- twist drill milling machine
- twist drill point grinding machine
- twist test machine
- two-address machine
- two-axis NC machine
- two-axis-controlled machine
- two-dimensional engraving machine
- two-plane balancing machine
- two-roll sheet bending machine
- two-shift machine
- two-shifted machine
- two-tool machine
- two-way broaching machine
- two-way drilling machine
- two-way machine
- tybe-reducing machine
- typical machine
- ultra precision machine
- ultra-high precision machine
- ultra-high speed machine
- ultrasonic cleaning and degreasing machine
- ultrasonic cleaning machine
- ultrasonic copy-piercing machine
- ultrasonic drilling machine
- ultrasonic hole-contouring machine
- undedicated machine
- underdesigned machine
- underutilized machine
- unit construction machine
- unit-built machine
- unit-changeable machine
- unit-type machine
- universal boring machine
- universal cutter and tool grinding machine
- universal head milling machine
- universal horizontal milling machine
- universal knee-type milling machine
- universal milling machine
- universal rotaty table grinding machine
- universal table grinding machine
- universal testing machine
- universal tool and die milling machine
- universal tool milling and boring machine
- universal toolroom milling machine
- universal-spindle machine
- unmanned machine
- unmanned measuring machine
- unmanned turning machine
- upgradable machine
- uprated machine
- upright boring machine
- upright drilling machine
- upright drilling-and-boring machine
- upsetting machine
- used machine
- user-friendly machine
- utrasonic lapping machine
- valve seat lapping machine
- valve seat milling machine
- vehicle-mounted machine
- vending machine
- veneer slicing machine
- versatile machine
- vertical arm measuring machine
- vertical band machine
- vertical band-saw machine
- vertical band-sawing machine
- vertical bed machine
- vertical boring machine
- vertical broaching machine
- vertical chucking machine
- vertical double-ram broaching machine
- vertical double-slide broaching machine
- vertical drilling machine
- vertical machine
- vertical milling machine
- vertical planing machine
- vertical plano-milling machine
- vertical pull-up broaching machine
- vertical push-broaching machine
- vertical ram machine
- vertical slotting machine
- vertical spindle surface-grinding machine
- vertical turning machine
- vertical turning-and-boring machine
- vertical/horizontal machine
- vertically oriented drilling machine
- vertical-type machine
- vibration fatigue testing machine
- vibration machine
- vibratory finishing machine
- vibrofinishing machine
- Vickers hardness machine
- Vickers pyramid hardness machine
- vision-controlled machine
- volume production machine
- walking machine
- wall machine
- washing drying machine
- washing machine
- watch-case making machine
- watch-gear hobbing machine
- watch-gear making machine
- water jet cutting machine
- water-jet machine
- way-type machine
- way-type unit head machine
- weathering machine
- weighing machine
- welding machine
- well-developed machine
- wet-cutting machine
- wet-grinding machine
- wheel turning machine
- whirling machine
- wide belt sending machine
- wire bonding machine
- wire brush deburring machine
- wire coiling and winding machine
- wire cutting-off machine
- wire drawing machine
- wire EDM machine
- wire erosion machine
- wire netting and weaving machine
- wire-cut EDM machine
- wire-cut electrical discharge machine
- wire-cut machine
- wire-cutting machine
- wire-cutting spark erosion machine
- wire-eroding machine
- wire-forming machine
- wire-making machine
- wire-polishing machine
- wire-straightening machine
- woodsawing machine
- woodworking machine
- workpiece moving-type machine
- worm grinding machine
- worm milling machine
- wrist-pin boring machine
- xerox machine
- X-ray machine

Nervi, Pier Luigi

SUBJECT AREA: Architecture and building, Civil engineering

[br]

b. 21 June 1891 Sondrio, Italy

d. 9 January 1979 (?), Italy

[br]

Italian engineer who played a vital role in the use and adaptation of reinforced concrete as a structural material from the 1930s to the 1970s.

[br]

Nervi early established a reputation in the use of reinforced concrete with his stadium in Florence (1930–2). This elegant concrete structure combines graceful curves with functional solidity and is capable of seating some 35,000 spectators. The stadium was followed by the aircraft hangars built for the Italian Air Force at Orvieto and Ortebello, in which he spanned the vast roofs of the hangars with thin-shelled vaults supported by precast concrete beams and steel-reinforced ribs. The structural strength and subtle curves of these ribbed roofs set the pattern for Nervi's techniques, which he subsequently varied and elaborated on to solve problems that arose in further commissions.

Immediately after the Second World War Italy was short of supplies of steel for structural purposes so, in contrast to the USA, Britain and Germany, did not for some years construct any quantity of steel-framed rectangular buildinngs used for offices, housing or industrial use. It was Nervi who led the way to a ferroconcrete approach, using a new type of structure based on these materials in the form of a fine steel mesh sprayed with cement mortar and used to roof all kinds of structures. It was a method that resulted in expressionist curves instead of rectangular blocks, and the first of his great exhibition halls at Turin (1949), with a vault span of 240 ft (73 m), was an early example of this technique. Nervi continued to create original and beautiful ferroconcrete structures of infinite variety: for example, the hall at the Lido di Roma, Ostia; the terme at Chianciano; and the three buildings that he designed for the Rome Olympics in 1960. The Palazzetto dello Sport is probably the most famous of these, for which he co-operated with the architect Annibale Vitellozzi to construct a small sports palace seating 5,000 spectators under a concrete "big top" of 194 ft (59 m) diameter, its enclosing walls supported by thirtysix guy ropes of concrete; inside, the elegant roof displays a floral quality. In 1960 Nervi returned to Turin to build his imaginative Palace of Labour for the centenary celebrations of Garibaldi and Victor Emmanuel in the city. This vast hall, like the Crystal Palace in England a century earlier (see Paxton), had to be built quickly and be suitable for later adaptation. It was therefore constructed partly in steel, and the metal supporting columns rose to palm-leaf capitals reminiscent of those in ancient Nile palaces.

Nervi's aim was always to create functional buildings that simultaneously act by their aesthetic qualities as an effective educational influence. Functionalism for Nervi never became "brutalism". In consequence, his work is admired by the lay public as well as by architects. He collaborated with many of the outstanding architects of the day: with Gio Ponti on the Pirelli Building in Milan (1955–9); with Zehrfuss and Breuer on the Y-plan UNESCO Building in Paris (1953–7); and with Marcello Piacentini on the 16,000-seat Palazzo dello Sport in Rome. Nervi found time to write a number of books on building construction and design, lectured in the Universities of Rio de Janiero and Buenos Aires, and was for many years Professor of Technology and Technique of Construction in the Faculty of Architecture at the University of Rome. He continued to design new structures until well into the 1970s.

[br]

Principal Honours and Distinctions

RIBA Royal Gold Medal 1960. Royal Institute of Structural Engineers Gold Medal 1968. Honorary Degree Edinburgh University, Warsaw University, Munich University, London University, Harvard University. Member International Institute of Arts and Letters, Zurich; American Academy of Arts and Sciences; Royal Academy of Fine Arts, Stockholm.

Bibliography

1956, Structures, New York: Dodge.

1945, Scienza o Arte del Costruire?, Rome: Bussola.

Further Reading

P.Desideri et al., 1979, Pier Luigi Nervi, Bologna: Zanichelli.

A.L.Huxtable, 1960, Masters of World Architecture; Pier Luigi Nervi, New York: Braziller.

DY

Brandt, Alfred

SUBJECT AREA: Mining and extraction technology

[br]

b. 3 September 1846 Hamburg, Germany

d. 29 November 1899 Brig, Switzerland

[br]

German mechanical engineer, developer of a hydraulic rock drill.

[br]

The son of a Hamburg merchant, he studied mechanical engineering at the Polytechnikum in Zurich and was engaged in constructing a railway line in Hungary and Austria before he returned to Switzerland. At Airolo, where the Gotthard tunnel was to commence, he designed a hydraulic rock drill; the pneumatic ones, similar to the Ingersoll type, did not satisfy him. His drill consisted of two parts instead of three: the hydraulic motor and the installation for drilling. At the Sulzer company of Winterthur his first design, a percussion drill, in 1876, was developed into a rotary drill which worked with greatest success in the construction of various railway tunnels and also helped to reduce costs in the mining industry.

His Hamburg-based firm Brandt \& Brandau consequently was soon engaged in many tunnelling and mining projects throughout Germany, as well as abroad. During the years 1883 and 1895 Brandt spent time in exploration in Spain and reopening the lead-mines in Posada. His most ambitious task was to co-operate in drafting the Simplon tunnel, the construction of which relied greatly on his knowledge and expertise. The works began several years behind schedule, in 1898, and consequently he was unable to see its completion.

[br]

Bibliography

1877, "Beschreibung und Abbildung der Brandtschen Bohrmaschine", Eisenbahn 7 (13).

Further Reading

C.Matschoss, 1925, Manner der Technik, Berlin.

G.E.Lucas, 1926, Der Tunnel. Anlage und Bau, Vol. 2, Berlin, pp. 49–55 (deals with his achievements in the construction of tunnels).

WK

Greathead, James Henry

SUBJECT AREA: Civil engineering, Mining and extraction technology

[br]

b. 6 August 1844 Grahamstown, Cape Colony (now South Africa)

d. 21 October 1896 Streatham, London, England

[br]

British civil engineer, inventor of the Greathead tunnelling shield.

[br]

Greathead came to England in 1859 to complete his education. In 1864 he began a three-year pupillage with the civil engineer Peter W. Barlow, after which he was engaged as an assistant engineer on the extension of the Midland Railway from Bedford to London. In 1869 he was entrusted with the construction of the Tower Subway under the River Thames; this was carried out using a cylindrical wrought-iron shield which was forced forward by six large screws as material was excavated in front of it. This work was completed the same year. In 1870 he set himself up as a consulting engineer, and from 1873 he was Resident Engineer on the Hammersmith and Richmond extensions of the Metropolitan District Railway. He assisted in the preparation of several other railway projects including the Regent's Canal Railway in 1880, the Dagenham Dock and the Metropolitan Outer Circle Railways in 1881, a new line from London to Eastbourne and a number of Irish light railways. He worked on a bill for the City and South London Railway, which was built between 1886 and 1890; here compressed air was used to prevent the inrush of water, a method for tunnelling which was generally adopted from then on. He invented apparatus for the application of water to excavate in front of the shield as well as for injecting cement-grout behind the lining of the tunnel.

He was joint engineer with Sir Douglas Fox for the construction of the Liverpool Overhead Railway, and held the same post with W.R.Galbraith on the Waterloo and City Railway; he was also associated with Sir John Fowler and Sir Benjamin Baker in the construction of the Central London Railway. He died, aged 52, before the completion of some of these projects.

[br]

Further Reading

Obituary, 1896, Proceedings of the Institution of Mechanical Engineers.

O.Green, 1987, The London Underground: An Illustrated History', London: Ian Allan (in association with the London Transport Museum).

P.P.Holman, 1990, The Amazing Electric Tube: A History of the City and South London

Railway, London: London Transport Museum.

IMcN

design

1. noun

1) (preliminary sketch) Entwurf, der

2) (pattern) Muster, das

3) no art. (art) Design, das; Gestaltung, die (geh.)

4) (established form of a product) Entwurf, der; (of machine, engine, etc.) Bauweise, die

5) (general idea, construction from parts) Konstruktion, die

6) in pl.

have designs on somebody/something — es auf jemanden/etwas abgesehen haben

7) (purpose) Absicht, die

by design — mit Absicht; absichtlich

8) (end in view) Ziel, das

2. transitive verb

1) (draw plan of, sketch) entwerfen; konstruieren, entwerfen [Maschine, Fahrzeug, Flugzeug]

2)

be designed to do something — [Maschine, Werkzeug, Gerät:] etwas tun sollen

3) (set apart) vorsehen

be designed for somebody/something — für jemanden/etwas gedacht od. vorgesehen sein

* * *

1. verb

(to invent and prepare a plan of (something) before it is built or made: A famous architect designed this building.) entwerfen

2. noun

1) (a sketch or plan produced before something is made: a design for a dress.) der Entwurf

2) (style; the way in which something has been made or put together: It is very modern in design; I don't like the design of that building.) die Gestaltung, die Bauart

3) (a pattern etc: The curtains have a flower design on them.) das Muster

4) (a plan formed in the mind; (an) intention: Our holidays coincided by design and not by accident.) die Absicht

•

- academic.ru/19873/designer">designer

- designing

* * *

de·sign

[dɪˈzaɪn]

I. vt

1. (plan)

▪ to \design sth etw entwerfen

to \design books Bücher gestalten

to \design cars Autos konstruieren

to \design a dress ein Kleid entwerfen

2. (intend)

▪ to be \designed for sb für jdn konzipiert sein

these measures are \designed to reduce pollution diese Maßnahmen sollen die Luftverschmutzung verringern

II. vi entwerfen, gestalten

III. n

1. (plan or drawing) Entwurf m

2. no pl (art of creating designs) Design nt

to study \design Design studieren

3. (arrangement of form, colour) Design nt (of + gen); of building Bauart f; of machine Konstruktion f

4. no pl (intention) Vorsatz m, Absicht f

to do sth by \design etw mit Absicht tun

5. (pattern) Muster nt

6. ( fam: dishonest intentions)

▪ \designs pl Absichten pl; ( hum)

to have \designs on a championship es auf einen Titel abgesehen haben

IV. adj attr, inv Konstruktions-

\design fault Konstruktionsfehler m

\design feature Konstruktionsmerkmal nt

* * *

[dI'zaɪn]

1. n

1) (= planning, shaping etc of building, book, picture etc) Entwurf m; (of dress) Design nt, Entwurf m; (of car, machine, plane etc) Konstruktion f

it's still at the design stage — es befindet sich noch in der Konstruktion or im Konstruktionsstadium

it was a good/faulty design — es war gut/schlecht konstruiert

a new design (Aut) — ein neues Modell

2) no pl (as subject = art of designing) Design nt

3) (= pattern on pottery, material) Muster nt

4) (= intention) Plan m, Absicht f

evil designs — böse Absichten

by design ( rather than accident) — absichtlich (und nicht zufällig)

to have designs on sb/sth — mit jdm/etw etwas im Sinn haben, es auf jdn/etw abgesehen haben

he has designs on her — er hat etwas mit ihr vor

2. vt

1) (= plan, draw) entwerfen; machine konstruieren

a well designed machine —

car seats designed for maximum safety — Autositze, die für maximale Sicherheit konstruiert sind

2)

(= intend) to be designed for sb/sth —

the dictionary is designed for beginners a peace plan designed to end the civil war — das Wörterbuch ist für Anfänger bestimmt or konzipiert ein Friedensplan, der den Bürgerkrieg beenden soll

this magazine is designed to appeal to young people — diese Zeitschrift soll junge Leute ansprechen

the legislation is designed as a consumer protection measure — die Gesetzgebung soll dem Verbraucherschutz dienen

3. vi

planen, Pläne or Entwürfe machen

4. adj attr

Design-

design technology — Designtechnik f

* * *

design [dıˈzaın]

A v/t

1. entwerfen, aufzeichnen, skizzieren, TECH konstruieren:

design a dress ein Kleid entwerfen

2. gestalten, ausführen, anlegen:

beautifully designed

3. fig entwerfen, ausdenken, ersinnen

4. im Sinne haben, vorhaben, planen ( alle:

doing, to do zu tun)

5. bestimmen, vorsehen ( beide:

for für jemanden oder etwas;

as als):

be designed to do sth dafür bestimmt oder darauf angelegt sein, etwas zu tun (Sache)

6. (for) jemanden bestimmen (zu), ausersehen, vorsehen (zu, für):

he was designed for service in the navy;

design sb to be a priest jemanden dazu ausersehen, Priester zu werden

B v/i Pläne entwerfen, Entwürfe machen ( beide:

for für)

C s

1. Design n, Entwurf m, Zeichnung f, Plan m, Skizze f

2. Design n, Muster(zeichnung) n(f): → copyright A, protection 2, registered 2

3. TECH

a) Baumuster n, Konstruktionszeichnung f

b) Bauart f, Bau(weise) m(f), Konstruktion f, Ausführung f:

design engineer Konstrukteur(in); → industrial design

4. Design n, (dekoratives) Muster

5. (künstlerische oder äußere) Gestaltung, Formgebung f

6. Plan m, Anlage f, Anordnung f

7. Plan m, Vorhaben n, Absicht f:

by design mit Absicht, absichtlich;

with the design of doing mit der Absicht oder dem Vorsatz zu tun

8. Ziel n, (End)Zweck m

9. Anschlag m ([up]on sb’s life auf jemandes Leben), böse Absicht:

have designs (up)on ( oder against) etwas (Böses) im Schilde führen gegen, es abgesehen haben auf (akk), a. hum einen Anschlag vorhaben auf (akk)

10. Zweckmäßigkeit f:

argument from design REL Beweis m aus der Zweckmäßigkeit, teleologischer Gottesbeweis

* * *

1. noun

1) (preliminary sketch) Entwurf, der

2) (pattern) Muster, das

3) no art. (art) Design, das; Gestaltung, die (geh.)

4) (established form of a product) Entwurf, der; (of machine, engine, etc.) Bauweise, die

5) (general idea, construction from parts) Konstruktion, die

6) in pl.

have designs on somebody/something — es auf jemanden/etwas abgesehen haben

7) (purpose) Absicht, die

by design — mit Absicht; absichtlich

8) (end in view) Ziel, das

2. transitive verb

1) (draw plan of, sketch) entwerfen; konstruieren, entwerfen [Maschine, Fahrzeug, Flugzeug]

2)

be designed to do something — [Maschine, Werkzeug, Gerät:] etwas tun sollen

3) (set apart) vorsehen

be designed for somebody/something — für jemanden/etwas gedacht od. vorgesehen sein

* * *

n.

Bauplan -¨e m.

Entwurf -¨e m.

Gestaltung f.

Konstruktion f.

Planung -en f. v.

entwerfen v.

konstruieren v.

konzipieren (Technik) v.

planen v.

Hedley, William

SUBJECT AREA: Land transport, Mining and extraction technology, Railways and locomotives

[br]

b. 13 July 1779 Newburn, Northumberland, England

d. 9 January 1843 Lanchester, Co. Durham, England

[br]

English coal-mine manager, pioneer in the construction and use of steam locomotives.

[br]

The Wylam wagonway passed Newburn, and Hedley, who went to school at Wylam, must have been familiar with this wagonway from childhood. It had been built c.1748 to carry coal from Wylam Colliery to the navigable limit of the Tyne at Lemington. In 1805 Hedley was appointed viewer, or manager, of Wylam Colliery by Christopher Blackett, who had inherited the colliery and wagonway in 1800. Unlike most Tyneside wagonways, the gradient of the Wylam line was insufficient for loaded wagons to run down by gravity and they had to be hauled by horses. Blackett had a locomotive, of the type designed by Richard Trevithick, built at Gateshead as early as 1804 but did not take delivery, probably because his wooden track was not strong enough. In 1808 Blackett and Hedley relaid the wagonway with plate rails of the type promoted by Benjamin Outram, and in 1812, following successful introduction of locomotives at Middleton by John Blenkinsop, Blackett asked Hedley to investigate the feasibility of locomotives at Wylam. The expense of re-laying with rack rails was unwelcome, and Hedley experimented to find out the relationship between the weight of a locomotive and the load it could move relying on its adhesion weight alone. He used first a model test carriage, which survives at the Science Museum, London, and then used a full-sized test carriage laden with weights in varying quantities and propelled by men turning handles. Having apparently satisfied himself on this point, he had a locomotive incorporating the frames and wheels of the test carriage built. The work was done at Wylam by Thomas Waters, who was familiar with the 1804 locomotive, Timothy Hackworth, foreman smith, and Jonathan Forster, enginewright. This locomotive, with cast-iron boiler and single cylinder, was unsatisfactory: Hackworth and Forster then built another locomotive to Hedley's design, with a wrought-iron return-tube boiler, two vertical external cylinders and drive via overhead beams through pinions to the two axles. This locomotive probably came into use in the spring of 1814: it performed well and further examples of the type were built. Their axle loading, however, was too great for the track and from about 1815 each locomotive was mounted on two four-wheeled bogies, the bogie having recently been invented by William Chapman. Hedley eventually left Wylam in 1827 to devote himself to other colliery interests. He supported the construction of the Clarence Railway, opened in 1833, and sent his coal over it in trains hauled by his own locomotives. Two of his Wylam locomotives survive— Puffing Billy at the Science Museum, London, and Wylam Dilly at the Royal Museum of Scotland, Edinburgh—though how much of these is original and how much dates from the period 1827–32, when the Wylam line was re-laid with edge rails and the locomotives reverted to four wheels (with flanges), is a matter of mild controversy.

[br]

Further Reading

P.R.B.Brooks, 1980, William Hedley Locomotive Pioneer, Newcastle upon Tyne: Tyne \& Wear Industrial Monuments Trust (a good recent short biography of Hedley, with bibliography).

R.Young, 1975, Timothy Hackworth and the Locomotive, Shildon: Shildon "Stockton \& Darlington Railway" Silver Jubilee Committee; orig. pub. 1923, London.

C.R.Warn, 1976, Waggonways and Early Railways of Northumberland, Newcastle upon Tyne: Frank Graham.

See also: Stephenson, George

PJGR

Rittinger, Peter von

SUBJECT AREA: Mining and extraction technology

[br]

b. 23 January 1811 Neutitschein, Moravia (now Now Jicin, Czech Republic)

d. 7 December 1872 Vienna, Austria

[br]

Austrian mining engineer, improver of the processing of minerals.

[br]

After studying law, philosophy and politics at the University of Olmutz (now Olomouc), in 1835 Rittinger became a fellow of the Mining Academy in Schemnitz (now Banská Štiavnica), Slovakia. In 1839, the year he finished at the academy, he published a book on perspective drawing. The following year, he became Inspector of Mills at the ore mines in Schemnitz, and in 1845 he was engaged in coal mining in Bohemia and Moravia. In 1849 he joined the mining administration at Joachimsthal (now Jáchymov), Bohemia. In these early years he contributed his first important innovations for the mining industry and thus fostered his career in the government's service. In 1850 he was called to Vienna to become a high-ranked officer in various ministries. He was responsible for the construction of buildings, pumping installations and all sorts of machinery in the mining industry; he reorganized the curricula of the mining schools, was responsible for the mint and became head of the department of mines, forests and salt-works in the Austrian empire.

During all his years of public service, Rittinger continued his concern with technological innovations. He improved the processing of ores by introducing in 1844 the rotary washer and the box classifier, and later his continuously shaking concussion table which, having been exhibited at the Vienna World Fair of 1873, was soon adopted in other countries. He constructed water-column pumps, invented a differential shaft pump with hydraulic linkage to replace the heavy iron rods and worked on centrifugal pumps. He was one of the first to be concerned with the transfer of heat, and he developed a system of using exhaust steam for heating in salt-works. He kept his eye on current developments abroad, using his function as official Austrian commissioner to the world exhibitions, on which he published frequently as well as on other matters related to technology. With his systematic handbook on mineral processing, first published in 1867, he emphasized his international reputation in this specialized field of mining.

[br]

Principal Honours and Distinctions

Knighted 1863. Order of the Iron Crown 1863. Honorary Citizen of Joachimsthal 1864. President, Austrian Chamber of Engineers and Architects 1863–5.

Bibliography

1849, Der Spitzkasten-Apparat statt Mehlrinnen und Sümpfen…bei der nassen Aufbereitung, Freiberg.

1854, Theoretisch-praktische Anleitung zur Rader-Verzahnung, Vienna.

1855, Theoretisch-praktische Abhandlung über ein für alle Gattungen von Flüssigkeiten anwendbares neues Abdampfverfahren, Vienna.

1861, Theorie und Bau der Rohrturbinen, Prague.

1867, Lehrbuch der Aufbereitungskunde, Berlin (with supplements, 1870–73).

Further Reading

H.Kunnert, 1972, "Peter Ritter von Rittinger. Lebensbild eines grossen Montanisten", Der Anschnitt 24:3–7 (a detailed description of his life, based on source material).

J.Steiner, 1972, "Der Beitrag von Peter Rittinger zur Entwicklung der Aufbereitungstechnik". Berg-und hüttenmännische Monatshefte 117: 471–6 (an evaluation of Rittinger's achievements for the processing of ores).

WK

get

1. I

abs

1) I have 10 shillings more to get мне надо достать еще десять шиллингов

2) she gave him as good as she got она дала ему сдачи

2. II

1) get somewhere get here (home, thus far, abroad, etc.) приезжать /добираться, попадать/ сюда и т. д.; he forgot the key and couldn't get in он забыл ключ и не мог попасть в дом; the door was locked and we could not get out дверь была заперта [на ключ], и мы не могли войти; the train is starting, you must get in поезд отправляется, вам надо войти в вагон; I have no ticket, will I be able to get in? у меня нет билета, мне можно пройти /меня пропустят/? get out! вылезай(те)!, выходи(те)!; please, let me get by пожалуйста, пропустите меня /разрешите мне пройти/; get ashore сходить /высаживаться/ на берег; get astray заблудиться; rumours (reports, etc.) get abroad ходят /распространяются/ слухи и т. д.; this piece of news has got abroad эта новость стала широко известна; such sensations get abroad такого рода сенсационные сообщения становятся достоянием широкой публики; he'll soon get there он там скоро будет, он туда скоро попадет; your letter got there yesterday ваше письмо там получили /пришло туда/ вчера; how (lid these flowers get there? как туда попали эти цветы?: he got home quickly он быстро добрался до дому: the bridge was destroyed and we couldn't get across мост был разрушен, и мы не могли попасть на ту сторону; the frontier is so well guarded that. no one can get across граница так надежно /хорошо/ охраняется, что никто не может ее перейти /что ее невозможно нарушить/; get down спуститься вниз: the cat climbed to the top of tile tree and couldn't get down кошка взобралась на вершину дерева и не могла слезть

2) he tries hard but he never gets anywhere он много работает, но у него ничего не выходит, он прилагает много усилий, но ничего не может добиться; you'll get nowhere if you work so little если вы будете так мало работать, вы ничего не добьетесь: with courage we can get anywhere мужество поможет нам добиться всего; he is getting ahead splendidly у него дела идут прекрасно; at last we seem to be getting somewhere похоже, наконец у нас что-то получается

3. III

1) get smth. get an answer (a postcard, a telegram, good new?get information, a birthday present, a pension, wages, etc.) получать ответ и т.д., get confirmation получить подтверждение; he got a surprise его ждал сюрприз; where can I get permission? его можно получить разрешение?; get one's breakfast (one's dinner, etc.) позавтракать и т. д.; I could not get any supper я остался без ужина, я не смог поужинать || get a sight /а glimpse/ of smb., smth. увидеть кого-л., что-л.

2) get smth., smb. where did you get the money? где вы достали /раздобыли/ деньги? get a hat (a new coat, same stamps, a new diary, etc.) приобретать /покупать/ шляпу и т. д.'; you had better get a new umbrella вам бы надо купить /вам нужен/ новый зонтик; where can I get this book? где можно достать /купить/ эту книгу? I got the book. needed я нашел /достал/ нужную мне книгу; I'll go and get some milk. get Some biscuits too a схожу за молоком. get Возьми еще и печенья. get the prize (a good crop, credit, much, little, etc.) получать приз и т. д., he has got the support of the directors он получил поддержку /добился поддержки/ директоров; get a profit получать прибыль; he got nothing ему ничего на досталось, get good results (advantage, power, fame, wealth, etc.) добиваться хороших результатов и т.д., I went and got some singing lessons я пошел и взял несколько уроков пения; get friends при обретать друзей; where do you get pupils? откуда вы берете учеников?; get a wife жениться; get knowledge of the subject овладевать каким-л. предметом || get possession of smth. завладеть /овладеть/ чем-л.; get one's own way добиться своего

3) get smth., smb. get one's hat (one's stick, one's bag, etc.) взять [с собой] шляпу и т. д., wait till I get my coat подожди, я только возьму пальто; go and get the doctor сходи за врачом; hold the line, I'll go and get him не вешайте трубку, я сейчас ere позову /найду/

4) get smth. the room (the house, etc.) gets no sun в комнату и т. д. совсем не попадает солнце; this room gets all the sun именно в эту комнату попадает солнце; I'll come and see you if I get the time я приеду повидать вас, если у меня будет время; she hoped to get a little sleep она надеялась, что немного поспит /что ей удастся немного поспать/; I'll go and get some sleep пойду сосну

5) get smb.,smth. I didn't get him a) я не застал его; б) я не дозвонился ему; you got the wrong number вы ошиблись номером /вы не туда попали/

6) get smb., smth. get the thief (the runaway, the culprit, a squirrel, etc.) поймать вора и т. д.; did he get his train он успел на поезд?; I decided to get the next train я решил сесть на следующий поезд

7) get smth. get an illness заболеть; get a cold /а chill/ простудиться; get [the] measles (scarlet fever, typhus, etc.) заболеть корью, подхватить корь и т. д.; have you got a cold? у вас насморк?; get a bad fall (a slight hurt) сильно (слегка) ушибиться; get a blow (a shock, a nasty wound, etc.) получить удар и т. д.

8) get smth. get ten years (six months, etc.) получить десять лет тюрьмы /тюремного заключения/ и т. д., быть приговоренным к десяти годам [тюремного заключения] и т. д.; you'll get a beating тебя ожидает порка, тебя высекут; you'll get a scolding тебя ожидает /ты получишь/ выговор; you'll get it! тебе влетит

9) get smth., smb. coll. get the joke (smb.'s meaning, smb.'s idea, etc.) понимать шутку и т. д., I don't get it не понял; it is just between us, get it? это только между нами, попятно?; I didn't get your name я не разобрал /не расслышал/ вашего имени; I don't get you я вас не понимаю

10) get smth. dividing nine by three we get three если разделить девять на три, получится три

11) have got smth. I have got a new watch (a new suit, a new hat, a car, etc.) у меня [есть] новые часы и т. д; have you got a newspaper (the tickets, a pencil, an erasing-knife, etc)? у вас есть газета и т.д.? I've got no money у меня нет денег; she's got a lovely voice у нее красивый голос; he'll lose all he's got, if he isn't careful если он не будет более осмотрительным /осторожнее/, он потеряет все, что имеет

4. IV

1) get smth. at some time get the answer this morning (some money soon, etc.) получить ответ сегодня утром и т. д.; get money every month получать деньги каждый месяц; I get a letter every day каждый день мне приходит /я получаю/ письмо; in this hotel I get breakfast every morning в этой гостинице каждое утро дают /подают/ завтрак; get your dinner at once сейчас же пообедай; get smth. in some manner you got the answer right ты получил /у тебя получился/ правильный ответ

2) get smth. in some manner get this horse (this coat, this bicycle, etc.) cheap (ly) дешево купить /приобрести/ лошадь и т. д., купить эту лошадь и т. д. по дешевке; get the book second-hand приобрести подержанную книгу, купить книгу у букиниста; get money easily легко зарабатывать /доставать, получать/ деньги; get this book easily достать эту книгу без затруднений

3) get smb., smth. somewhere get him home (the old man upstairs, you there, the child up, etc.) отводить /доставлять, приводить/ его домой и т.д., get smb. in а) помочь кому-л. проникнуть куда-л.; б) втащить кого-л. вовнутрь; get smb. out а) помочь кому-л. выбраться откуда-л.; б) вытащить кого-л. откуда-л.; get the horses out вывести лошадей; what got you here? что вас привело сюда?; get this parcel home (the table here, etc.) доставлять посылку домой и т. д., get the chairs (the washing, some coal, etc.) in вносить стулья и т.д., I don't know how you'll ever get the box (the trunk, the piano, etc.) upstairs не знаю, как вы втащите этот ящик и т. д. наверх; get a mast up ставить мачту; get up a sunken vessel поднимать затонувшее судно; get smth. overboard выбрасывать что-л. за борт; get his letter (one's own books, my money, etc.) back получить обратно его письме и т. д., now I've got you back теперь вы вернулись ко мне

4) get smb. at some time I'll get you yet! я еще вас поймаю!, вы еще мне попадетесь!; he got you that time! на этот раз он вас поймал!

5) get smb. somewhere it will get him nowhere, it won't get him anywhere это ничего ему не даст, этим он ничего не добьется; all work and no play does not get you anywhere если работать и не отдыхать, толку будет мало

6) get smb., smth. in some manner coll. I get you (your meaning, your idea, etc.) all right я хорошо понимаю вас и т. д.

7) have got smth. somewhere what have you got there? что у вас там?

5. V

get smb. smth.

1) get him a ticket (me a dictionary, them those pictures, etc.) доставать /покупать/ ему билет и т. д.; get me a good teacher (him a place. her another job, etc.) найдите мне хорошего преподавателя и т. д.

2) get smb. a towel (me my hat, him another dictionary, her a chair, me some ink, etc.) принести кому-л. полотенце и т. д.; can you get me another pencil? вы можете принести /дать/ мне другой карандаш?

3) get smb. smb., smth. get me the director (the hospital, the head teacher, etc.) соедините меня с директором и т. д.

6. VI

1) get smth., smb. in some state get dinner (breakfast, books, etc.) ready приготовить обед и т. д., she quickly got the children ready for school она быстро собрала детей в школу; get one's feet (one's clothes, etc.) wet промочить ноги и т. д.; get the windows open открыть окна; get everything right again снова навести везде порядок; get smb. free освободить кого-л., выпустить кого-л. на свободу; get the dog loose спустить собаку с цепи; it gets me down-hearted это приводит меня в уныние

2) get smth. in some state get the sum right получить правильный ответ [в решении задачи], правильно решить задачу

7. VII

1) get smth., smb. to do smth. get something (nothing, etc.) to eat (to read, to play with, etc.) достать что-нибудь поесть и т. д.; get leave to go home получить отпуск для поездки домой; get smb. to clean the windows (to wash the floors, to do the room, etc.) найти кого-л. [, чтобы] вымыть окна и т. д.; I can't get anyone to do the work properly не могу найти человека, который выполнил бы эту работу как следует

2) get smb., smth. to do smth. get your friend to help you (him to come, her to join us, your brother to introduce me to the chairman, etc.) убедить /заставить/ вашего приятеля /друга/ помочь вам и т. д.; get a fire to burn разжечь огонь или костер; get this door to shut properly починить дверь, чтобы она закрывалась как следует; I can never get him to go to bed я никогда не могу уложить его спать; get him to tell her about it уговорите его рассказать ей об этом; you will not be able to get a tree to grow in this soil вам не удастся вырастить дерево на такой почве

3) Have got smth. to do I have got very much /lots of work/ to do у меня очень много работы /дел/, мне надо очень много сделать; what have you got to say? что вы можете сказать?

8. VIII

get smth., smb. doing smth.get the clock (the work, the typewriter, etc.) going наладить часы и т. д; at last he got the stone rolling наконец ему удалось сдвинуть камень, и тот покатился; she got everybody singing все подхватили ее песню; она заставила всех петь; I'll get her talking а) я заставлю ее заговорить; б) я разговорю ее; that got him guessing это заставило его теряться в догадках

9. IX

1) get smth., smb. done I must get the book bound (my passport endorsed, the work done, my shoes repaired, etc.) мне нужно [отдать] переплести книгу и т. д.; we are getting our apartment newly papered мы заново оклеиваем [обоями] квартиру; I shall get my hair cut я постригусь; can you get the work finished in time (by evening)? a) вы можете закончить работу вовремя (к вечеру)?; б) вы можете добиться, чтобы работа была готова вовремя (к вечеру)?; where can I this printed (my piano tuned, my shoes soled, etc.)? где мне / я могу/ это напечатать и т. д.?; I want to get my coat mended я хочу починить /отдать в починку/ пальто; get the laws obeyed (my words believed, etc.) добиться [того], чтобы законы выполнялись /соблюдались/ и т. д.; get oneself appointed (noticed, chosen, etc.) сделать так, чтобы тебя назначили и т. д., they got him elected chairman они провели его в председатели

2) get smb. in some state get a man drunk напоить человека; get smb. dressed (washed, fed, etc.) одеть и т. д. кого-л.; it gets me discouraged я от этого прихожу в уныние; he got his face scratched (his wrist broken, etc.) он расцарапал лицо и т. д.

10. X

get into some state get married (dressed, shaved, brushed clean, confused, hurt, etc.) жениться и т.д., get drunk напиваться; get tired уставать; get frozen замерзать; he got drowned он утонул; you must get done /finished/ with it с этим нужно покончить /кончать/; get used /accustomed/ to the climate here (to the customs and manners over here, to sitting up late, to the rolling of a ship, etc.) привыкать к здешнему климату и т. д., he got fired /dismissed/ (severely wounded, killed, etc.) его уволили /выгнали/ и т. д.; he got paid for this ему за это заплатили; he got mixed up with dishonest men он связался с дурной компанией; they got left behind они отстали; that vase will get broken эта ваза разобьется; everything gets known все становится известным || get rid of smb., smth. отделываться /избавляться/ от кого-л., чего-л.; get rid of a troublesome visitor (of a lazy servant, of the old car, of an engagement, etc.) избавиться /отделаться/ от назойливого посетителя и т. д.

11. XI

1) be got the thing is not to be got fay вещь нельзя достать

2) be got at the soul of a people can be got at fully only through, the knowledge of its language душу народа можно познать только через его язык

3) be got at coll. the witness (the press, the voters, etc.) have been got at свидетели и т. д. были подкуплены

12. ХIII

1) get to do smth. soon she got to like her job скоро ей начала нравиться /понравилась/ ее работа, она вскоре полюбила свой работу;how did you get to know it? как вы об этом узнали?, как вам удалось это узнать?; they got to be friends они стали друзьями; you'll like him when /once/ you get to know him когда вы его узнаете, вы его полюбите

2) have got to do smth. we've got to go (to write a letter, to listen to what he says, to leave early to catch my train, to pass this examination, etc.) нам необходимо /мы должны/ идти и т.д., it has got to be done это должно быть сделано /надо сделать/; she's got to work hard for her living ей приходится много работать, чтобы заработать на жизнь

3) id have got to do with smth. what's that got to do with us? какое это имеет отношение к нам?

13. XIV

get doing smth.,get moving (rolling, singing, etc.) начать двигаться и т. д.; when these women get talking they go on for hours когда эти женщины начнут разговаривать /болтать/, их не остановишь; we got talking of the future мы стали говорить /заговорили/ о будущем; they wanted to get going on the construction of the house они хотели приступить к строительству дома; if we don't get doing we'll never arrive in time если мы не тронемся в путь, мы ни за что не приедем вовремя; things haven't really got going yet дела еще фактически не сдвинулись с места /с мертвой точки/; let's get going! пошли!, пойдём!, поёхали!

13. XV

get into some state get warmer (worse and worse, uglier every day, etc.) становиться теплее и т. д.; get grey (old, silly, poor, red in the face, etc.) поседеть и т. д.; get well поправляться, выздоравливать; he is getting better ему уже лучше; get asleep засыпать; I am getting thirsty (sleepy, hungry. etc.) мне захотелось пить и т. д., the children will get wet (hungry, etc.) дети вымокнут /промокнут/ и т. д.; he got rich он разбогател; he got mad at the message записка его разозлила; он разозлился на записку; they got closer to each other они сблизились, они стали ближе друг другу; it got rainy пошли дожди; it got foggy опустился туман; the sky got cloudy небо заволокло тучами; it is getting dark (cold, warm, etc.) темнеет и т. д. it is getting late уже поздно; the fire is getting low костер гаснет /угасает/; things are getting better дела идут все лучше

14. XVI

1) get into (out of, through, over, up, across, at, etc.) smth. get into the room (into town, into a bar, etc.) попадать /входить/ в комнату и т. д.; the burglar got into the kitchen through the window грабитель проник /влез/ в кухню через окно; get into a car сесть /влезть/ в автомобиль /в машину/; get into the saddle сесть /взобраться/ в седло; something has got into my eye мне что-то попало в глаз this story got into the newspapers эта история попала в газеты; where has that book got to? куда запропастилась /делась/ эта книга?; get to the station (to London, to the office, etc.) добраться до вокзала и т. д.; where did you get to yesterday? куда вы делись /где вы были/ вчера?; get out, of a train (out of a bus, out of a carriage, etc.) выходить из поезда и т. д., get out of bed! вставайте!; get out of here (out of this house)! прочь отсюда (из этого дома)!; get out of the way of a car посторониться и пропустить машину; get out of smb.'s way уйти с чьей-л. дороги; get through the hole in the wall (through the eye of a needle, through a gap, through a crack, etc.) пролезать через дыру в стене и т. д.; get over a fence (over a wall, over a stile, etc.) перелезать через забор и т. д.; get over /across/ a river переправляться через реку; get across tile street (across /over/ the bridge, across the frontier, etc.) перейти на другую сторону улицы и т. д.; he got above the clouds он поднялся над облаками; get under the hedge (under the wire netting, under the rope, etc.) пролезать под изгородью и т. д.; get under some old boxes (under some bushes, etc.) залезать /закатиться/ под старые ящики и т. д.; under the wheels (under а motor-саг, etc.) попасть под колеса и т. д.; the cat got under the bed (under the fence, etc.) кошка шмыгнула под кровать и т. д.; get at the top shelf (at the ripest fruit, at one's luggage, etc.) дотянуться /достать/ до верхней полки и т. д.; keep medicines where children can't get at them убирайте лекарства так, чтобы дети не смогли их достать; the dog could not get at me собака не могла меня достать; let me get at him coll. дайте мне только до него добраться; get down a tree (down a fence, etc.) слезать с дерева и т. д., get up a ladder (up a hill, up a tree, etc.) взбираться на лестницу и т. д.; get by the guard (by the policeman, etc.) проскользнуть мимо часового и т. д.; get before the crowd (before the procession, before the column of marchers, etc.) обогнать толпу и т. д.; get behind a tree (behind a door, behind a fence, etc.) встать /спрятаться/ за дерево и т. д.; the реп got behind the bookcase ручка закаталась /попала/ за книжный шкаф; get between the sheets залезть под одеяло; he got between the boys and prevented a fight он встал между мальчишками и не дал им сцепиться; get aboard a ship подняться на борт корабля

2) get to (abreast of, beyond, as far аs, etc.) smth. get to the end of the chapter (to the main subject, to the theme of my story, to the heart of the matter, etc.) дойти /добраться/ до конца главы и т. д.: how far did you get to? до какого места ты дочитал?; get to the head of one's class выйти на первое место в классе; стать первым учеником в классе; get to the city police (to the authorities, etc.) связаться с городской полицией и т. д.; get to some time (to some age) достигать какого-л. времени (возраста); when it gets to 10 o'clock I begin to feel tired к десяти часам я начинаю чувствовать усталость: when you get to 70... когда вам [будет] семьдесят...; get between two fighting parties оказаться /очутиться/ между двумя враждующими /борющимися/ группами; his anger has got beyond control он вышел из себя, он уже не мог сдержать гнев; he doesn't let much get by him он почти ничего не пропускает; практически ничто мимо него не проходит; you cannot easily get at him с ним не так просто связаться /увидеться/; get abreast of modem technology достичь современного уровня техники; we got as far as the lake мы дошли или доехали до озера || get in touch with smb. связаться / установить контакт/ с кем-л.

3) get within smth. get within smb.'s reach (within the range of their fire, etc.) оказаться в пределах чьей-л. досягаемости и т. д.; get within earshot оказаться в пределах слышимости; get within their sight оказаться в поле их зрения; get out of smth. get out of smb.'s sight скрыться с чьих-л. глаз; get out of smb.'s reach оказаться для них вне пределов досягаемости; get among smb. get among friends (among enemies, among strangers, etc.) оказаться среди друзей и т. д. || get into the hands of the police попасть в руки полиции

4) get into smth. get into a coat (into one's clothes, into one's boots, etc.) надевать пальто и т. д., get into one's trousers натянуть брюки; I can't get into these shoes, they are three sizes too small я не могу надеть эти ботинки, мне надо на три номера больше

5) get into smth. get into business (into trade, into the movies, into politics, etc.) заняться коммерцией и т. д.; get into fights with the neighbour's children драться /вступать в драку/ с соседскими мальчишками; get into Parliament (into a party, into a club, etc.) стать членом парламента и т. д.; get into office получить /занять/ должность; Kennedy got into office in 1961 Кеннеди стал президентом в тысяча девятьсот шестьдесят первом году; get into conversation (into a dispute with smb., into correspondence, into communication, etc.) завязать разговор и т.д.; they got into quite an argument about it между ними разгорелся довольно жаркий спор

6) get in (to) smth. get into trouble (into a difficulty, into mischief, etc.) попасть в беду и т. д.; get into debt залезть в долги; get in a row (into a horrible scrape, etc.) оказаться замешанным /ввязаться/ в скандал и т. д.; get into a bad habit приобрести плохую /дурную/ привычку; get into the habit /into the way/ of getting up early (of doing things one's own way, of answering back, etc.) привыкнуть рано вставать и т. д., get into a rage впасть в ярость; get into a panic поддаться панике; get into general use получить широкое распространение; get out of smth. get out of practice потерять навык, [давно] не иметь практики; get out of repair требовать ремонта; get out of order выйти из строя, испортиться, сломаться; get out of shape потерять форму

7) get over (out of, through,get etc.) smth. get over a difficulty ( over an obstacle, over an impediment, etc.) преодолеть затруднение и т. д.; she couldn't get over her shyness (over her embarrassment, over her confusion, over her dislike of him, over the disinclination to work, etc.) она не могла побороть / преодолеть/ свой застенчивость и т. д.; he couldn't get over his stutter он не мог избавиться от заикания; I can't get over his abominable manners никак не могу примириться с его ужасными манерами /привыкнуть к его ужасным манерам/; get over a disappointment (over an alarm, over a surprise, etc.) прийти в себя после разочарования и т. д.; I couldn't get over his behaviour он себя так плохо вел, что я никак не мог успокоиться; I couldn't get over the fear of him я никак не мог избавиться от чувства /преодолеть чувство/ страха перед ним; get over an illness (over an ailment, over that severe cold, over an injury, etc.) оправиться от /после/ болезна и т.д., get over /out of/ a bad habit отделаться / отучиться/ от дурной привычки; get out of a difficulty выйти из затруднительного положения; there is по getting out of it, you cannot get out of it от этого не открутишься; don't try to get out of your duties не пытайтесь уклоняться от своих обязанностей; get through another bad winter (through a dangerous illness, etc.) пережить еще одну тяжелую зиму и т. д.; I don't know how I'll get through this month я не знаю, как я дотяну до конца месяца; I don't know how I got through the day не знаю, как я прожил /выдержал/ этот день; get through an exam выдержать экзамен; get through written papers написать контрольную работу; get through a driving test сдать экзамен на водительские права; how he got through college is a mystery совершенно непонятно, как он смог окончить колледж; get (a)round smth. get around the law (around the regulations, around that clause, around a difficulty, etc.) обходить закон и т. д.; there is no getting (aground this fact a) нельзя не (посчитаться с этим фактом; б) нельзя пройти мимо этого факта; get (a)round smb. coll. she can get (aground anyone она может убедить /обвести вокруг пальца/ кого хочешь /кого угодно/; she knows how to get round him она знает, как к нему подъехать

8) get through /over/ smth. get through a lot of reading (through a lot of work, etc.) много прочитать и т.д., get through her washing (through one's homework, through this book, etc.) закончить стирку и т. д.; how could he get through all these files? как он успел просмотреть все эти папки?; get through one's task with great speed быстро выполнить свой задачу; get through a lot of correspondence ( through these books, etc.) разделаться с большим количеством писем и т. д.; get through such a lot of food (through all this meat, through a bottle of gin a week, etc.) съесть /осилить/ много всякой всячины и т. д.; get through one's fortune (through a lot of money, through L 1000 in less than a week, etc.) растратить /растранжирить, промотать/ свое состояние и т. д.

9) get at smth., smb. get at the truth (at the facts, at the root of the trouble, at the cause of the disturbance, at the heart of things, etc.) докапываться до правды и т. д.; get at the meaning of the sentence добраться до сути этого предложения; get at the secret of his success выяснить /понять/, в чем секрет его успеха; that's what I want to get at вот в чем мне хочется разобраться, вот что мне хочется постичь; what are you getting at? coll. a) чего вы хотите?, к чему вы клоните?; б) что вы имеете в виду?; we could not tell what the speaker was getting at мы не знали /не понимали/, что имел в виду /хотел сказать/ оратор; who are you getting at? кого вы имеете в виду?, на кого вы намекаете?; were you getting at me in that last remark you made? в своем последнем замечании вы намекали на меня? /вы имели в виду меня/?; he is always getting at me coll. он вечно ко мне цепляется /придирается/

10) get at smb. get at a witness (at a judge, at the press, etc.) подкупать свидетеля и т. д.

15. XVII

1) get (in)to doing smth. coll. get into sleeping in the afternoon (to fighting, etc.) взять себе за привычку спать днем и т. д.; I got to thinking that... я стал думать, что...

2) get out of doing smth. get out of attending smth. (out of going there, out of answering, etc.) отвертеться и не пойти на какое-л. мероприятие и т. д.; get as far as doing smth. we did not get as far as discussing finances мы не дошли до обсуждения финансовых вопросов

16. XXI1

1) get smth. from (at, out of, etc.) smth., smb. get machinery from Europe (many commodities from abroad, etc.) получать оборудование из Европы и т. д., закупать /покупать, приобретать/ оборудование в Европе и т.д., get our things at this shop покупать /приобретать/ вещи в этом магазине; get information from the library (money from the bank, help from him, etc.) получать, сведения из библиотеки и т. д., get dinner (lunch, etc.) at the hotel (at the restaurant, at the inn, etc.) (пообедать и т. д. в гостинице и т. д.; I got this information (the news, facts. etc.) from a friend of mine (from my secretary, etc.) мне это и т. д. сообщил один приятель и т. д., я получил эти сведения и т. д. от одного приятеля и т. д.; get butter from cream получать масло из сливок; get a confession out of the prisoner ( a secret out of the woman, the truth out of the man, etc.) вытянуть / вырвать/ у заключенного признание и т. д.; get smth. for smth. get data for analysis (information for the article, new curtains for the guest-room, etc.) доставать /добывать/ данные для анализа и т. д., get material for research собирать материал для исследования: can I still get a ticket for tonight's play? можно еще достать /купить, получить/ билет на сегодняшний спектакль?; get smth. for smb. get tickets (another dictionary, this book, etc.) for him купить или заказать ему билеты и т. д.; get smth. by smth. get good results by hard work усердием /большим трудом/ добиться хороших результатов; get very little by deceit немногого добиться обманом || get hold of the manager (of the secretary, of the owner, etc.) разыскать /найти/ администратора и т. д., where did you get hold of this curious old picture? где вы раздобыли эту любопытную старую картину?; he got the start of his rivals он получил преимущество перед своими соперниками

2) get smth. from smb. get presents from his brother (a letter from one's parents, a message from him, etc.) получать подарки от брата и т. д.; get no help (no money, no advice, etc.) from him не получать от него помощи и т. д.; you will never get anything from him от него ничего не дождешься; get his timidity from his mother унаследовать робость от матери; get smth. for smth. get a good salary for the job (a reward for his part in the affair, a medal for bravery. etc.) получать хорошую зарплату за эту работу и т. д.; what did you get for this article? сколько вам заплатили за эту статью?; get a good price for the land получить хорошую цену за землю; I will see what I can get for it посмотри, сколько я могу за это получить /выручить, взять/; get a new watch (a ring, a new hat, etc.) for one's birthday получить новые часы и т. д. [в подарок] на день рождения; get smth. out of smth. what did you get out of his lecture? что вы вынесли из его лекции?, что вам дала его лекция?; all he got out of it was disgrace это принесло ему только позор; get smth. of smb., smth. what impression did you get of him (of this play, etc.)? .какое он и т. д. на вас произвел впечатление?

3) get smth., smb. across (from, to, etc.) smth. get smth. across the river (across the sea, across the frontier, etc.) переправить что-л. через реку и т. д.; get smb. across the street (across the bridge, across the field, etc) перевести кого-л. через улицу и т. д.; get one's hat from the other room (the books from the study, the tea-things from the kitchen, etc.) принести шляпу из другой комнаты и т. д., get down a book from the top shelf (the boy from the fence, my hat from the book, etc.) снимать книгу с верхней полки и т. д.; get a letter to London (to Paris, etc.) доставить письмо в Лондон и т. д., get the child to bed уложить ребенка в постель; get the trunk back to the garret отнести сундук обратно на чердак; get the parcel back to London снова доставить пакет в Лондон; get your TV back for this evening (for the party, etc.) принесите снова ваш телевизор на этот вечер и т. д.; the car did not get him very far on the road home он проехал на машине лишь небольшую часть дороги домой; that did not get him very far on the road to fame это весьма незначительно способствовало его продвижению по пути славы; get smth., smb. to smb., smth. how can I get these things to you? как мне переправить вам эти вещи?; get the slaves to the north переправить рабов на север

4) get smth., smb. into (through, from, out of, etc.) smth. I can't get the key into the lock я не могу вставить ключ в замок; help me get the pig into the cart помогите мне втащить поросенка в телегу: how can I get all these books into the bag? как мне запихнуть /засунуть, впихнуть/ все эти книги в портфель?; get the piano through the door протащить пианино в дверь; get the milk from the refrigerator for me достаньте мне молока из холодильника; get smth. out of the house выносить что-л. из дома; get a cork out of a bottle вытаскивать пробку из бутылки; get stains out of a coat выводить пятна с пиджака: get these things out of the way уберите эти вещи с дороги [, чтобы они не мешали]; get the man out of the house (the dog out of the room, etc.) выводить человека из дома и т. д.: get her out of the country помочь ей уехать или вывезти ее из страны /за границу/ || get smth. into one's head вбить себе что-л. в голову: he got it into his head that everybody was persecuting him он вбил себе в голову, что его все преследуют; get smth. out of one's head выбросить что-л. из головы; get the idea (the thing, it, the notion, etc.) out of one's head выбросить эту мысль и т. д. из головы, перестать об этом думать

5) get smb., smth. into (through) smth. get him into Parliament (into their headquarters, etc.) провести /протащить/ его в парламент и т. д.; get smb. into the firm пристроить кого-л. в эту фирму; get a bill through Parliament (this measure through the house, etc.) провести /протащить/ законопроект в парламенте и т. д., he helped me to get my luggage through the customs он помог мне пройти таможенный досмотр; get a pupil through his examination вытащить ученика на экзамене; it was his mathematics that got him through entrance examinations он выдержал приемные экзамены благодаря тому, что хорошо знал математику; get an article into a paper поместить статьи в газете; get the report into print сдать доклад в печать

6) get smb. by smth. get smb. by the hand (by the hair, by the throat, by the wrist. etc.) схватить кого-л. за руку и т. д.: get smth., smb. on (by) smth. I get all program (me)s on my TV-set мой телевизор принимает все программы; how many stations can you get on your radio set? сколько станций берет /принимает/ ваш приемник?; I can't get him on the phone я не могу связаться с ним по телефону; get smb. by phone (by radio, etc.) связаться с кем-л. по телефону и т. д.

7) get smb. in (on, through, etc.) smth. the bullet got him in the leg (through the stomach, in the shoulder, etc.) пуля попала ему в ногу и т. д.; the blow got him on the head (in the mouth, on the back, etc.) удар пришелся ему по голове и т. д., get smth. in smth. get a splinter in one's finger занозить палец; get a bullet in the leg получить пулевое ранение в ногу

8) get smb. into smth. get smb. into debt (into difficulties, into a fight, etc.) вовлекать кого-л. в долги и т. д., she got me into trouble у меня из-за нее /она втравила меня в/ неприятности; get smb. out of smth. get smb. out of a fix /out of difficulty/ вызволить кого-л. из затруднения; get the children out of this habit отучать детей от этой привычки || get smth., smb. off one's hands избавиться от чего-л., кого-л., сбыть что-л., кого-л. с рук; she wished she could get the old house (the useless books, her unmarried daughter, etc.) off her hands ей хотелись избавиться /освободиться/ от старого дома и т. д. /сбыть старый дом и т. д. с рук/

9) get smth. of smth. get 5 years of hard labour получить пять лет каторжных работ; get smth. for smth. he got a stiff sentence for his crimes за совершенные преступления ему был вынесен суровый приговор

10) have got smth., smb. in (at, on, etc.) smth. I have /I've/ got money in the bank (a flat in this house, a friend at the studio, etc.) у меня в банке [лежат] деньги и т. д. || he's got smth., smb. on the brain он все время о чем-л., о ком-л. думает

17. XXII

get smth. by doing smth. that's what you get by talking too much вот что ты получаешь /вот как ты расплачиваешься/ за болтливость; get a good price by bargaining поторговаться и получить хорошую цену; get smth. for doing smth. you'll get a beating for doing this тебе за это всыпят; you'll get it for breaking that vase! тебе крепко достанется за то, что ты разбил вазу!

18. XXIV1

get smth., smb. as smth. get L 10 as reward (a book as a consolation prize, the newcomer as assistant, etc.) получить десять фунтов в качестве вознаграждения и т. д.; I got this book as a present я получил эту книгу в подарок; we get L 20 as the average мы получаем в среднем двадцать фунтов

19. XXVI

get smb., smth. before... (when..., etc.) get him before he escapes схватить его до того, как он скроется; get the book when the price is reduced купить книгу, когда ее уценят

Fairbairn, Sir Peter

SUBJECT AREA: Textiles

[br]

b. September 1799 Kelso, Roxburghshire, Scotland

d. 4 January 1861 Leeds, Yorkshire, England

[br]

British inventor of the revolving tube between drafting rollers to give false twist.

[br]

Born of Scottish parents, Fairbairn was apprenticed at the age of 14 to John Casson, a mill-wright and engineer at the Percy Main Colliery, Newcastle upon Tyne, and remained there until 1821 when he went to work for his brother William in Manchester. After going to various other places, including Messrs Rennie in London and on the European continent, he eventually moved in 1829 to Leeds where Marshall helped him set up the Wellington Foundry and so laid the foundations for the colossal establishment which was to employ over one thousand workers. To begin with he devoted his attention to improving wool-weaving machinery, substituting iron for wood in the construction of the textile machines. He also worked on machinery for flax, incorporating many of Philippe de Girard's ideas. He assisted Henry Houldsworth in the application of the differential to roving frames, and it was to these machines that he added his own inventions. The longer fibres of wool and flax need to have some form of support and control between the rollers when they are being drawn out, and inserting a little twist helps. However, if the roving is too tightly twisted before passing through the first pair of rollers, it cannot be drawn out, while if there is insufficient twist, the fibres do not receive enough support in the drafting zone. One solution is to twist the fibres together while they are actually in the drafting zone between the rollers. In 1834, Fairbairn patented an arrangement consisting of a revolving tube placed between the drawing rollers. The tube inserted a "middle" or "false" twist in the material. As stated in the specification, it was "a well-known contrivance… for twisting and untwisting any roving passing through it". It had been used earlier in 1822 by J. Goulding of the USA and a similar idea had been developed by C.Danforth in America and patented in Britain in 1825 by J.C. Dyer. Fairbairn's machine, however, was said to make a very superior article. He was also involved with waste-silk spinning and rope-yarn machinery.

Fairbairn later began constructing machine tools, and at the beginning of the Crimean War was asked by the Government to make special tools for the manufacture of armaments. He supplied some of these, such as cannon rifling machines, to the arsenals at Woolwich and Enfield. He then made a considerable number of tools for the manufacture of the Armstrong gun. He was involved in the life of his adopted city and was elected to Leeds town council in 1832 for ten years. He was elected an alderman in 1854 and was Mayor of Leeds from 1857 to 1859, when he was knighted by Queen Victoria at the opening of the new town hall. He was twice married, first to Margaret Kennedy and then to Rachel Anne Brindling.

[br]

Principal Honours and Distinctions

Knighted 1858.

Bibliography

1834, British patent no. 6,741 (revolving tube between drafting rollers to give false twist).

Further Reading

Dictionary of National Biography.

Obituary, 1861, Engineer 11.

W.English, 1969, The Textile Industry, London (provides a brief account of Fairbairn's revolving tube).

C.Singer (ed.), 1958, A History of Technology, Vols IV and V, Oxford: Clarendon Press (provides details of Fairbairn's silk-dressing machine and a picture of a large planing machine built by him).

RLH