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1 factory-built house
English-German dictionary of Architecture and Construction > factory-built house
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2 built
B adj1 ( made) he's powerfully built il a une puissante carrure ; he's slightly built il est frêle ; he's built for hard work il est bâti pour les gros travaux ;2 ( designed) to be built for [car, equipment] être conçu pour [efficiency, speed] ; these houses were built to last ces maisons sont construites pour durer ;3 Archit the built environment la zone bâtie.C - built (dans composés) a Russian-built car/factory une voiture/usine de construction russe ; a stone-built house une maison en pierre. -
3 house
1) односемейный жилой дом; жилище; помещение2) вмещать, ставить на место; поместить (где-л.), жить в доме4) защищать, укрывать•- apartment house - basement house - bath house - block house - boiler house - branch house - bunk house - cell house - chapter house - compressor house - control house - cooling house - detached suburban house - domestic house - drying house - duplex-type house - dwelling house - engine house - factory-made house - fan house - fire engine house - frame-type house - gas house - gate house - gig house - greengroup houses - half-timber house - hose house - incineration house - insert house - lodging house - log house - low rent house - mansion house - multi-bay house - multi-bay house with some corridor storeys - no-frills house - one-family house - opera house - panel-built house - panel-type house - patio house - precast concrete house - prefabricated house - pump house - ranch house - ranch-type house - ready-cut house - round house - row houses - sectional house - semi-detached house - single-family house - storage house - study house - substandard house - tank house - tenement house - terrace house - terraced houses - toll house - tool house - town house - two-family house - type house - used house - vacation house - valve house - water house - wattle house - weigh house - wood frame house* * *1. брит. индивидуальный [одноквартирный] дом2. амер. жилой дом, жилое здание3. хранить, содержать- apartment house
- autonomous house
- bachelor house
- bastel house
- bath house
- bird house
- boarding house
- boiler house
- buttress type house
- central boiler house
- cold water house
- condemned house
- cook house
- cool house
- cooperative apartment house
- cooperative house
- country house
- court house
- custom house
- derelict house
- detached house
- district boiler house
- double house
- duplex house
- dwelling house
- engine house
- fire house
- fortified house
- frame house
- gallery apartment house
- garden house
- glass house
- government funded houses
- green house
- guest house
- holiday house
- hot house
- ice house
- instrument shelter house
- log house
- low energy house
- manor house
- multistorey apartment house
- one-off house
- opera house
- power house
- prefabricated house
- private house
- public house
- public sector house
- pump house
- round house
- semidetached house
- settlement house
- single family house
- stately house
- storage house
- studio house
- terraced houses
- tool house
- town house
- two-family house
- vacation house
- wash house
- weekend house -
4 building
- building
- n1. здание; сооружение; постройка; строение; корпус
2. строительство; возведение зданий
building constructed to 12 m grid — здание с сеткой колонн 12*12 м
building ready for moving-in — здание «под ключ»
building up of surface layer — нанесение поверхностного слоя (напр. бетона при торкретировании)
- above-grade building
- above-ground building
- abutting buildings
- accessory building
- administration building
- agricultural building
- agricultural production building
- airport building
- all-brick building
- all-metal building
- ancillary building
- arch building
- bank building
- bearing-wall building
- beautifully detailed building
- bedroom building
- bridge building
- central-corridor residential building
- centralized building
- centrally-planned building
- cherished building
- civic building
- cold-weather building
- communal building
- complicated building
- concrete building
- concrete-frame building
- curved building
- demountable building
- domestic building
- earthquake resistance building
- earth-sheltered building
- ecclesiastic building
- educational building
- energy-efficient building
- expo building
- factory building
- factory-built building
- farm building
- fireproof building
- framed building
- frame building
- functional building
- government building
- great public building
- heavy industrial building
- heightened building
- high-rise building
- historic building
- home building
- hostel building
- industrial building
- industrialized building
- industrial production building
- inflatable building
- integrated building
- large-panel building
- light industrial building
- line building
- link building
- loft building
- low-energy building
- low rise building
- main building
- manufacturing building
- memorial building
- mill building
- minor industrial building
- module-built building
- multicompartment building
- multifamily residential building
- multipurpose building
- multistory building
- multiuse building
- municipal buildings
- neighboring buildings
- nondomestic building
- nonresidential building
- office building
- permanent buildings
- portal framed building
- porticoed building
- post-frame building
- post-tensioned building
- precast concrete building
- precast concrete demountable building
- precast concrete framed building
- pre-engineered metal building
- prefabricated building
- pressurized building
- production building
- public building
- public service buildings
- quickly erected building
- racetrack building
- railway buildings
- raised building
- ramshackle building
- rectilinear building
- relocatable building
- repellent looking building
- residence building
- ribbon building
- riverside building
- school building
- science building
- set-back building
- single story building
- site-cast concrete building
- skeleton building
- solar building
- split-level building
- sports building
- steel building
- steel-framed building
- steel-frame building
- steel framed multistory buildings
- storage building
- stuccoed building
- subtle building
- systems building
- tall block building
- tapering building
- temporary buildings
- terminal building
- terraced buildings
- three-dimensional module house building
- three-dimensional house building
- three-floored building
- tier building
- tower building
- tropical building
- turn-key type building
- typical apartment building
- unassertive building
- unit-built building
- university building
- unserviceable building
- ventilation building
- walk-up building
- waterside building
- wing-shaped building
- winter building
Англо-русский строительный словарь. — М.: Русский Язык. С.Н.Корчемкина, С.К.Кашкина, С.В.Курбатова. 1995.
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5 building
1) постройка; строение; здание; сооружение; комплекс зданий3) строительный•- abutting buildings - accessory building - additional building - administrative building - air-conditioned building - ancillary building - arch building - basic building - bay-type building - bay-type industrial building - bridge building - business building - civic building - cold-weather building - community building - concrete-steel building - control building - convertible building - deckhead building - detached building - detention building - dilapidated building - domestic building - ecclesiastical building - engine building - engineering building - exhibition building - fabricated building - flat building - framed building - frame-panel building - functional building - hall building - hall-type industrial building - heapstead building - high-density apartment building - high-rise apartment building - high-rise building - intelligent building - integrated building - jerry building - line building - low-rise apartment building - market building - medium-rise apartment building - memorial building - mill building - model building - modular building - monastic building - multispan industrial building - multispan complex industrial building - multistorey apartment building - multistoreyed building - multistoreyed garage building - municipal building - office building - one-storey building - pavilion-like building - prefabricated building - prefabricated reusable building - process building - production building - pseudodipteral building - public building - railroad building - residence building - residential building - residential and community building - ribbon building - ruinous building - sectional building - set-back building - single-aisle building - single-storey building - smallholding building - speculative building - speculative building of flats - sporadic building - sport building - sports building - standardized building - station building - steel frame mill building - stone building - storage building - store building - stressed-skin building - system building - temporal building - temporary building - tenement building - theatre building - tier building - timber building - tower building - towerlike building - two-aisle building - tyre building - universal building - walk-up building - water-conditioning building* * *1. здание; сооружение; постройка; строение; корпус2. строительство; возведение зданийbuilding constructed to 12 m grid — здание с сеткой колонн 12*12 м
building ready for moving-in — здание «под ключ»
- above-grade buildingbuilding up of surface layer — нанесение поверхностного слоя (напр. бетона при торкретировании)
- above-ground building
- abutting buildings
- accessory building
- administration building
- agricultural building
- agricultural production building
- airport building
- all-brick building
- all-metal building
- ancillary building
- arch building
- bank building
- bearing-wall building
- beautifully detailed building
- bedroom building
- bridge building
- central-corridor residential building
- centralized building
- centrally-planned building
- cherished building
- civic building
- cold-weather building
- communal building
- complicated building
- concrete building
- concrete-frame building
- curved building
- demountable building
- domestic building
- earthquake resistance building
- earth-sheltered building
- ecclesiastic building
- educational building
- energy-efficient building
- expo building
- factory building
- factory-built building
- farm building
- fireproof building
- framed building
- frame building
- functional building
- government building
- great public building
- heavy industrial building
- heightened building
- high-rise building
- historic building
- home building
- hostel building
- industrial building
- industrialized building
- industrial production building
- inflatable building
- integrated building
- large-panel building
- light industrial building
- line building
- link building
- loft building
- low-energy building
- low rise building
- main building
- manufacturing building
- memorial building
- mill building
- minor industrial building
- module-built building
- multicompartment building
- multifamily residential building
- multipurpose building
- multistory building
- multiuse building
- municipal buildings
- neighboring buildings
- nondomestic building
- nonresidential building
- office building
- permanent buildings
- portal framed building
- porticoed building
- post-frame building
- post-tensioned building
- precast concrete building
- precast concrete demountable building
- precast concrete framed building
- pre-engineered metal building
- prefabricated building
- pressurized building
- production building
- public building
- public service buildings
- quickly erected building
- racetrack building
- railway buildings
- raised building
- ramshackle building
- rectilinear building
- relocatable building
- repellent looking building
- residence building
- ribbon building
- riverside building
- school building
- science building
- set-back building
- single story building
- site-cast concrete building
- skeleton building
- solar building
- split-level building
- sports building
- steel building
- steel-framed building
- steel-frame building
- steel framed multistory buildings
- storage building
- stuccoed building
- subtle building
- systems building
- tall block building
- tapering building
- temporary buildings
- terminal building
- terraced buildings
- three-dimensional module house building
- three-dimensional house building
- three-floored building
- tier building
- tower building
- tropical building
- turn-key type building
- typical apartment building
- unassertive building
- unit-built building
- university building
- unserviceable building
- ventilation building
- walk-up building
- waterside building
- wing-shaped building
- winter building -
6 build
I [bɪld] II 1. [bɪld]verbo transitivo (pass., p.pass. built)1) (construct) costruire [factory, church, railway]; erigere [ monument]2) (assemble) costruire, assemblare [engine, ship]4) (establish) costruire [career, future]; instaurare [ relationship]; fondare, costruire [ empire]; favorire [ prosperity]; costituire, formare [ team]to build one's hopes on sth. — riporre le proprie speranze in qcs
5) costruire [sequence, set, word] (anche gioc.)2.verbo intransitivo (pass., p.pass. built)1) (construct) costruire2) fig. (use as a foundation)to build on — basarsi o fondarsi su [popularity, success]
•- build in- build up* * *[bild] 1. past tense, past participle - built; verb(to form or construct from parts: build a house/railway/bookcase.) costruire2. noun(physical form: a man of heavy build.) forma; corporatura- builder- building
- building society
- built-in
- built-up
- build up* * *build /bɪld/n. [cu]1 ( di persona) corporatura; fisico: sturdy build, corporatura robusta; powerful build, fisico possente; solid build, corporatura forte (o massiccia); athletic build, fisico atletico; slender build, corporatura esile♦ (to) build /bɪld/(pass. e p. p. built)A v. t.1 costruire; edificare; erigere: to build new schools, costruire nuove scuole; to build a road, costruire (o fare) una strada; to build a ship, costruire una nave; to build a wall, costruire (o erigere) un muro; A swallow has built its nest under my roof, una rondine ha fatto il nido sotto il mio tetto3 creare; costruire; formare; sviluppare: to build a business, creare un'azienda; metter su un'impresa; to build confidence, creare fiducia; to build a relationship, sviluppare una relazione; to build an army, creare un esercito4 ► to build up, A def. 36 – to build on (o upon) basare su; fondare su: to build a theory on facts, basare una teoria sui fatti; to build all one's hopes on st., fondare o (riporre) ogni speranza in qc.B v. i.3 ► to build up, B def. 2● (fig.) to build bridges ► bridge (1) □ (fig.) to build on sand, costruire sulla sabbia.* * *I [bɪld] II 1. [bɪld]verbo transitivo (pass., p.pass. built)1) (construct) costruire [factory, church, railway]; erigere [ monument]2) (assemble) costruire, assemblare [engine, ship]4) (establish) costruire [career, future]; instaurare [ relationship]; fondare, costruire [ empire]; favorire [ prosperity]; costituire, formare [ team]to build one's hopes on sth. — riporre le proprie speranze in qcs
5) costruire [sequence, set, word] (anche gioc.)2.verbo intransitivo (pass., p.pass. built)1) (construct) costruire2) fig. (use as a foundation)to build on — basarsi o fondarsi su [popularity, success]
•- build in- build up -
7 Achard, Franz
SUBJECT AREA: Agricultural and food technology[br]b. 1753 Germanyd. 1821 Germany[br]German scientist of French descent who built the world's first factory to extract sugar from beet.[br]The descendant of a French refugee, Achard began the systematic study of beet on his estate at Caulsdorf in 1786. The work had been stimulated by the discovery in 1747 of the presence of sugar in fodder beet. This research had been carried out by Andreas Marggraf, under whom Franz Achard trained. After a fire destroyed his laboratories Achard established himself on the domain of Französisch in Buchholtz near Berlin.After thirteen years of study he felt sufficiently confident to apply for an interview with Frederick William III, King of Prussia, which took place on 11 January 1799. Achard presented the King with a loaf of sugar made from raw beet by his Sugar Boiling House method. He requested a ten-year monopoly on his idea, as well as the grant of land on which to carry out his work. The King was sufficiently impressed to establish a committee to supervise further trials, and asked Achard to make a public statement on his work. The King ordered a factory to be built at his own expense, and paid Achard a salary to manage it. In 1801 he was granted the domain of Cunern in Silesia; he built his first sugar factory there and began production in 1802. Unfortunately Achard's business skills were negligible, and he was bankrupt within the year. In 1810 the State relieved him of his debt and gave him a pension, and in 1812 the first sugar factory was turned into a school of sugar technology.[br]BibliographyAchard's public response to the King's request was his paper Abhandlungen über die Kultur der Runkelrube.Further ReadingNoel Deerr, 1950, The History of Sugar, Vol. II, London (deals with the development of sugar extraction from beet, and therefore the story of both Marggraf and Achard).AP -
8 build
build [bɪld](verb: preterite, past participle built)1. noun( = physique) corpulence f• it's a good start, something to build on c'est une base solide sur laquelle on peut bâtir[+ room, annex] ajouter (to à)► build up[business connection] se développer ; [tension, pressure, excitement] montera. [+ reputation] bâtir ; [+ business] monter ; [+ production, forces, tension, excitement] augmenterb. ( = make stronger) donner des forces à* * *[bɪld] 1.noun carrure f2.transitive verb (prét, pp built)1) ( construct) construire [factory, city, railway]; édifier [church, monument]2) ( assemble) construire [engine, ship]3) Computing créer [software, interface]4) ( establish) bâtir [career, future]; établir [relations, relationship]; fonder [empire]; créer [prosperity]; former [team]5) Games former [sequence, set, word]3.intransitive verb (prét, pp built)1) ( construct) construire2) fig ( use as a foundation)to build on — tirer parti de [popularity, success]; se développer à partir de [base]
•Phrasal Verbs:- build in- build up -
9 Lever, William Hesketh
[br]b. 19 September 1851 Bolton, Lancashire, Englandd. 7 May 1925 Hampstead, London, England[br]English manufacturer of soap.[br]William Hesketh Lever was the son of the retail grocer James Lever, who built up the large wholesale firm of Lever \& Co. in the north-west of England. William entered the firm at the age of 19 as a commercial traveller, and in the course of his work studied the techniques of manufacture and the quality of commercial soaps available at the time. He decided that he would concentrate on the production of a soap that was not evil-smelling, would lather easily and be attractively packaged. In 1884 he produced Sunlight Soap, which became the trade mark for Lever \& Co. He had each tablet wrapped, partly to protect the soap from oxygenization and thus prevent it from becoming rancid, and partly to display his brand name as a form of advertising. In 1885 he raised a large capital sum, purchased the Soap Factory in Warrington of Winser \& Co., and began manufacture. His product contained oils from copra, palm and cotton blended with tallow and resin, and its quality was carefully monitored during production. In a short time it was in great demand and began to replace the previously available alternatives of home-made soap and poor-quality, unpleasant-smelling bars.It soon became necessary to expand the firm's premises, and in 1887 Lever purchased fifty-six acres of land upon which he set up a new centre of manufacture. This was in the Wirral in Cheshire, near the banks of the River Mersey. Production at the new factory, which was called Port Sunlight, began in January 1889. Lever introduced a number of technical improvements in the production process, including the heating systems and the recovery of glycerine (which could later be sold) from the boiling process.Like Sir Titus Salt of Saltaire before him, Lever believed it to be in the interest of the firm to house his workers in a high standard of building and comfort close to the factory.By the early twentieth century he had created Port Sunlight Village, one of the earliest and certainly the most impressive housing estates, for his employees. Architecturally the estate is highly successful, being built from a variety of natural materials and vernacular styles by a number of distinguished architects, so preventing an overall architectural monotony. The comprehensive estate comprises, in addition to the factory and houses, a church, an art gallery, schools, a cottage hospital, library, bank, fire station, post office and shops, as well as an inn and working men's institute, both of which were later additions. In 1894 Lever \& Co. went public and soon was amalgamated with other soap firms. It was at its most successful high point by 1910.[br]Principal Honours and DistinctionsFirst Viscount Leverhulme of the Western Isles.Further Reading1985, Dictionary of Business Biography. Butterworth.Ian Campbell Bradley, 1987, Enlightened Entrepreneurs, London: Weidenfeld \& Nicolson.DY -
10 build
A n carrure f ; a man of stocky/average build un homme carré/de carrure moyenne ; he has the build of an athlete il a la carrure d'un athlète ; she is slender in build elle est mince.1 ( construct) construire [factory, city, railway] ; édifier [church, monument] ; construire [nest] ; to build sb a house, to build a house for sb construire une maison pour qn ; to build a wall from ou out of bricks construire un mur en briques ; to build a nest out of twigs construire un nid avec des brindilles ; to build an extension onto a house agrandir une maison ;2 ( assemble) construire [car, engine, ship] ;4 ( establish) bâtir [career, future] ; établir [relations, relationship] ; fonder [empire] ; créer [prosperity] ; former [team] ; to build a new China bâtir une Chine nouvelle ; to build a future for our country/our children bâtir un avenir pour notre pays/nos enfants ; to build one's hopes on sth fonder ses espoirs sur qch ; to build a presence in the European market faire sentir sa présence sur le marché européen ;5 Games former [sequence, set, word].1 ( construct) construire ;2 fig ( use as a foundation) to build on tirer parti de [popularity, success] ; to build on the excitement generated by the first film tirer parti de l'enthousiasme suscité par le premier film ; the scheme would build on the existing system le projet se fonderait sur le système existant ; the company wishes to build on its Asian base la société souhaite se développer à partir de sa base en Asie.■ build in:▶ build [sth] in, build in [sth]1 ( construct) encastrer [mirror, bookcase] ; to build a wardrobe into a wall encastrer une penderie dans un mur ;2 ( incorporate) introduire [clause, provision, guarantee] ; to build a safeguard into a contract introduire une garantie dans un contrat.■ build up:▶ build up [gas, silt, deposits] s'accumuler ; [traffic] s'intensifier ; [business, trade] se développer ; [tension, pressure, excitement] monter ;▶ build up [sth], build [sth] up1 ( accumulate) accumuler [weapons, wealth] ;2 ( boost) établir [self-confidence, trust] ; gonfler [morale] ; don't build your hopes up too high ne te fais pas d'illusions ;3 ( establish) constituer [collection] ; créer [business, organization] ; constituer [army] ; établir [picture, profile] ; créer [database] ; se faire [reputation] ; the college built up a large library le collège s'est constitué une importante bibliothèque ;▶ build [sth/sb] up, build up [sth/sb]1 (through eating, exercise) affermir [muscles] ; to build up one's forearms se muscler les avant-bras ; to build oneself up, to build up one's strength prendre des forces ;2 ( promote) they built him up to be a star ils l'ont lancé pour en faire une star. -
11 Edison, Thomas Alva
SUBJECT AREA: Architecture and building, Automotive engineering, Electricity, Electronics and information technology, Metallurgy, Photography, film and optics, Public utilities, Recording, Telecommunications[br]b. 11 February 1847 Milan, Ohio, USAd. 18 October 1931 Glenmont[br]American inventor and pioneer electrical developer.[br]He was the son of Samuel Edison, who was in the timber business. His schooling was delayed due to scarlet fever until 1855, when he was 8½ years old, but he was an avid reader. By the age of 14 he had a job as a newsboy on the railway from Port Huron to Detroit, a distance of sixty-three miles (101 km). He worked a fourteen-hour day with a stopover of five hours, which he spent in the Detroit Free Library. He also sold sweets on the train and, later, fruit and vegetables, and was soon making a profit of $20 a week. He then started two stores in Port Huron and used a spare freight car as a laboratory. He added a hand-printing press to produce 400 copies weekly of The Grand Trunk Herald, most of which he compiled and edited himself. He set himself to learn telegraphy from the station agent at Mount Clements, whose son he had saved from being run over by a freight car.At the age of 16 he became a telegraphist at Port Huron. In 1863 he became railway telegraphist at the busy Stratford Junction of the Grand Trunk Railroad, arranging a clock with a notched wheel to give the hourly signal which was to prove that he was awake and at his post! He left hurriedly after failing to hold a train which was nearly involved in a head-on collision. He usually worked the night shift, allowing himself time for experiments during the day. His first invention was an arrangement of two Morse registers so that a high-speed input could be decoded at a slower speed. Moving from place to place he held many positions as a telegraphist. In Boston he invented an automatic vote recorder for Congress and patented it, but the idea was rejected. This was the first of a total of 1180 patents that he was to take out during his lifetime. After six years he resigned from the Western Union Company to devote all his time to invention, his next idea being an improved ticker-tape machine for stockbrokers. He developed a duplex telegraphy system, but this was turned down by the Western Union Company. He then moved to New York.Edison found accommodation in the battery room of Law's Gold Reporting Company, sleeping in the cellar, and there his repair of a broken transmitter marked him as someone of special talents. His superior soon resigned, and he was promoted with a salary of $300 a month. Western Union paid him $40,000 for the sole rights on future improvements on the duplex telegraph, and he moved to Ward Street, Newark, New Jersey, where he employed a gathering of specialist engineers. Within a year, he married one of his employees, Mary Stilwell, when she was only 16: a daughter, Marion, was born in 1872, and two sons, Thomas and William, in 1876 and 1879, respectively.He continued to work on the automatic telegraph, a device to send out messages faster than they could be tapped out by hand: that is, over fifty words per minute or so. An earlier machine by Alexander Bain worked at up to 400 words per minute, but was not good over long distances. Edison agreed to work on improving this feature of Bain's machine for the Automatic Telegraph Company (ATC) for $40,000. He improved it to a working speed of 500 words per minute and ran a test between Washington and New York. Hoping to sell their equipment to the Post Office in Britain, ATC sent Edison to England in 1873 to negotiate. A 500-word message was to be sent from Liverpool to London every half-hour for six hours, followed by tests on 2,200 miles (3,540 km) of cable at Greenwich. Only confused results were obtained due to induction in the cable, which lay coiled in a water tank. Edison returned to New York, where he worked on his quadruplex telegraph system, tests of which proved a success between New York and Albany in December 1874. Unfortunately, simultaneous negotiation with Western Union and ATC resulted in a lawsuit.Alexander Graham Bell was granted a patent for a telephone in March 1876 while Edison was still working on the same idea. His improvements allowed the device to operate over a distance of hundreds of miles instead of only a few miles. Tests were carried out over the 106 miles (170 km) between New York and Philadelphia. Edison applied for a patent on the carbon-button transmitter in April 1877, Western Union agreeing to pay him $6,000 a year for the seventeen-year duration of the patent. In these years he was also working on the development of the electric lamp and on a duplicating machine which would make up to 3,000 copies from a stencil. In 1876–7 he moved from Newark to Menlo Park, twenty-four miles (39 km) from New York on the Pennsylvania Railway, near Elizabeth. He had bought a house there around which he built the premises that would become his "inventions factory". It was there that he began the use of his 200- page pocket notebooks, each of which lasted him about two weeks, so prolific were his ideas. When he died he left 3,400 of them filled with notes and sketches.Late in 1877 he applied for a patent for a phonograph which was granted on 19 February 1878, and by the end of the year he had formed a company to manufacture this totally new product. At the time, Edison saw the device primarily as a business aid rather than for entertainment, rather as a dictating machine. In August 1878 he was granted a British patent. In July 1878 he tried to measure the heat from the solar corona at a solar eclipse viewed from Rawlins, Wyoming, but his "tasimeter" was too sensitive.Probably his greatest achievement was "The Subdivision of the Electric Light" or the "glow bulb". He tried many materials for the filament before settling on carbon. He gave a demonstration of electric light by lighting up Menlo Park and inviting the public. Edison was, of course, faced with the problem of inventing and producing all the ancillaries which go to make up the electrical system of generation and distribution-meters, fuses, insulation, switches, cabling—even generators had to be designed and built; everything was new. He started a number of manufacturing companies to produce the various components needed.In 1881 he built the world's largest generator, which weighed 27 tons, to light 1,200 lamps at the Paris Exhibition. It was later moved to England to be used in the world's first central power station with steam engine drive at Holborn Viaduct, London. In September 1882 he started up his Pearl Street Generating Station in New York, which led to a worldwide increase in the application of electric power, particularly for lighting. At the same time as these developments, he built a 1,300yd (1,190m) electric railway at Menlo Park.On 9 August 1884 his wife died of typhoid. Using his telegraphic skills, he proposed to 19-year-old Mina Miller in Morse code while in the company of others on a train. He married her in February 1885 before buying a new house and estate at West Orange, New Jersey, building a new laboratory not far away in the Orange Valley.Edison used direct current which was limited to around 250 volts. Alternating current was largely developed by George Westinghouse and Nicola Tesla, using transformers to step up the current to a higher voltage for long-distance transmission. The use of AC gradually overtook the Edison DC system.In autumn 1888 he patented a form of cinephotography, the kinetoscope, obtaining film-stock from George Eastman. In 1893 he set up the first film studio, which was pivoted so as to catch the sun, with a hinged roof which could be raised. In 1894 kinetoscope parlours with "peep shows" were starting up in cities all over America. Competition came from the Latham Brothers with a screen-projection machine, which Edison answered with his "Vitascope", shown in New York in 1896. This showed pictures with accompanying sound, but there was some difficulty with synchronization. Edison also experimented with captions at this early date.In 1880 he filed a patent for a magnetic ore separator, the first of nearly sixty. He bought up deposits of low-grade iron ore which had been developed in the north of New Jersey. The process was a commercial success until the discovery of iron-rich ore in Minnesota rendered it uneconomic and uncompetitive. In 1898 cement rock was discovered in New Village, west of West Orange. Edison bought the land and started cement manufacture, using kilns twice the normal length and using half as much fuel to heat them as the normal type of kiln. In 1893 he met Henry Ford, who was building his second car, at an Edison convention. This started him on the development of a battery for an electric car on which he made over 9,000 experiments. In 1903 he sold his patent for wireless telegraphy "for a song" to Guglielmo Marconi.In 1910 Edison designed a prefabricated concrete house. In December 1914 fire destroyed three-quarters of the West Orange plant, but it was at once rebuilt, and with the threat of war Edison started to set up his own plants for making all the chemicals that he had previously been buying from Europe, such as carbolic acid, phenol, benzol, aniline dyes, etc. He was appointed President of the Navy Consulting Board, for whom, he said, he made some forty-five inventions, "but they were pigeonholed, every one of them". Thus did Edison find that the Navy did not take kindly to civilian interference.In 1927 he started the Edison Botanic Research Company, founded with similar investment from Ford and Firestone with the object of finding a substitute for overseas-produced rubber. In the first year he tested no fewer than 3,327 possible plants, in the second year, over 1,400, eventually developing a variety of Golden Rod which grew to 14 ft (4.3 m) in height. However, all this effort and money was wasted, due to the discovery of synthetic rubber.In October 1929 he was present at Henry Ford's opening of his Dearborn Museum to celebrate the fiftieth anniversary of the incandescent lamp, including a replica of the Menlo Park laboratory. He was awarded the Congressional Gold Medal and was elected to the American Academy of Sciences. He died in 1931 at his home, Glenmont; throughout the USA, lights were dimmed temporarily on the day of his funeral.[br]Principal Honours and DistinctionsMember of the American Academy of Sciences. Congressional Gold Medal.Further ReadingM.Josephson, 1951, Edison, Eyre \& Spottiswode.R.W.Clark, 1977, Edison, the Man who Made the Future, Macdonald \& Jane.IMcN -
12 site
1) (a place where a building, town etc is, was, or is to be, built: He's got a job on a building-site; The site for the new factory has not been decided.) sitio, lugar2) ((also Web site) a site on the Internet that gives information about a particular subject or person.) sitesite n1. solar2. obra3. emplazamiento4. lugartr[saɪt]1 situar, ubicar, emplazar\SMALLIDIOMATIC EXPRESSION/SMALLon site en el recintoarcheological site yacimiento arqueológicosite ['saɪt] n1) place: sitio m, lugar m2) location: emplazamiento m, ubicación fn.• asiento s.m.• emplazamiento s.m.• local s.m.• lugar s.m.• sitio s.m.• situación s.f.• solar s.m.saɪta) ( location) emplazamiento m (frml); ( piece of land) terreno m, solar mb) ( building site) obra fc) ( archeological site) yacimiento m (arqueológico)d) ( campsite) camping m[saɪt]1. N1) (=place) sitio m, lugar m ; (=location) situación f ; (=scene) escenario m ; (for building) solar m, terreno m ; (archaeological) yacimiento mbuilding site — obra f
burial site — necrópolis f inv
2) (Internet) = website2.VT situar, ubicar (esp LAm)* * *[saɪt]a) ( location) emplazamiento m (frml); ( piece of land) terreno m, solar mb) ( building site) obra fc) ( archeological site) yacimiento m (arqueológico)d) ( campsite) camping m -
13 Murray, Matthew
SUBJECT AREA: Land transport, Mechanical, pneumatic and hydraulic engineering, Railways and locomotives, Steam and internal combustion engines[br]b. 1765 near Newcastle upon Tyne, Englandd. 20 February 1826 Holbeck, Leeds, England[br]English mechanical engineer and steam engine, locomotive and machine-tool pioneer.[br]Matthew Murray was apprenticed at the age of 14 to a blacksmith who probably also did millwrighting work. He then worked as a journeyman mechanic at Stockton-on-Tees, where he had experience with machinery for a flax mill at Darlington. Trade in the Stockton area became slack in 1788 and Murray sought work in Leeds, where he was employed by John Marshall, who owned a flax mill at Adel, located about 5 miles (8 km) from Leeds. He soon became Marshall's chief mechanic, and when in 1790 a new mill was built in the Holbeck district of Leeds by Marshall and his partner Benyon, Murray was responsible for the installation of the machinery. At about this time he took out two patents relating to improvements in textile machinery.In 1795 he left Marshall's employment and, in partnership with David Wood (1761– 1820), established a general engineering and millwrighting business at Mill Green, Holbeck. In the following year the firm moved to a larger site at Water Lane, Holbeck, and additional capital was provided by two new partners, James Fenton (1754–1834) and William Lister (1796–1811). Lister was a sleeping partner and the firm was known as Fenton, Murray \& Wood and was organized so that Fenton kept the accounts, Wood was the administrator and took charge of the workshops, while Murray provided the technical expertise. The factory was extended in 1802 by the construction of a fitting shop of circular form, after which the establishment became known as the "Round Foundry".In addition to textile machinery, the firm soon began the manufacture of machine tools and steam-engines. In this field it became a serious rival to Boulton \& Watt, who privately acknowledged Murray's superior craftsmanship, particularly in foundry work, and resorted to some industrial espionage to discover details of his techniques. Murray obtained patents for improvements in steam engines in 1799, 1801 and 1802. These included automatic regulation of draught, a mechanical stoker and his short-D slide valve. The patent of 1801 was successfully opposed by Boulton \& Watt. An important contribution of Murray to the development of the steam engine was the use of a bedplate so that the engine became a compact, self-contained unit instead of separate components built into an en-gine-house.Murray was one of the first, if not the very first, to build machine tools for sale. However, this was not the case with the planing machine, which he is said to have invented to produce flat surfaces for his slide valves. Rather than being patented, this machine was kept secret, although it was apparently in use before 1814.In 1812 Murray was engaged by John Blenkinsop (1783–1831) to build locomotives for his rack railway from Middleton Colliery to Leeds (about 3 1/2 miles or 5.6 km). Murray was responsible for their design and they were fitted with two double-acting cylinders and cranks at right angles, an important step in the development of the steam locomotive. About six of these locomotives were built for the Middleton and other colliery railways and some were in use for over twenty years. Murray also supplied engines for many early steamboats. In addition, he built some hydraulic machinery and in 1814 patented a hydraulic press for baling cloth.Murray's son-in-law, Richard Jackson, later became a partner in the firm, which was then styled Fenton, Murray \& Jackson. The firm went out of business in 1843.[br]Principal Honours and DistinctionsSociety of Arts Gold Medal 1809 (for machine for hackling flax).Further ReadingL.T.C.Rolt, 1962, Great Engineers, London (contains a good short biography).E.Kilburn Scott (ed.), 1928, Matthew Murray, Pioneer Engineer, Leeds (a collection of essays and source material).C.F.Dendy Marshall, 1953, A History of Railway Locomotives Down to the End of theYear 1831, London.L.T.C.Rolt, 1965, Tools for the Job, London; repub. 1986 (provides information on Murray's machine-tool work).Some of Murray's correspondence with Simon Goodrich of the Admiralty has been published in Transactions of the Newcomen Society 3 (1922–3); 6(1925–6); 18(1937– 8); and 32 (1959–60).RTS -
14 Fuller, Richard Buckminster
SUBJECT AREA: Architecture and building[br]b. 12 July 1895 Milton, Massachusetts, USAd. 1 July 1983 Los Angeles, California, USA[br]American engineer, designer and inventor noted particularly for his creation of the geodesic dome.[br]After naval service during the First World War, Fuller worked for some time in the building industry with his father, who was an architect. In 1927 he became interested in trying to solve social problems by providing good, low-cost housing for an expanding population. Utilizing modern techniques applicable in other industries, such as the design of aircraft and ships, he produced his "Dymaxion House", which was transportable and cheap. This was followed in 1946 by his aluminium, stressed-skin, prefabricated house. The geodesic dome is the structural concept for which Fuller is particularly known. It was patented in 1954 and 300,000 were built over a thirty-year period. He had envisaged the dome being utilized on smaller or larger, simple or complex patterns for a wide variety of needs such as enclosing a covered area for a house, a botanical garden, an exhibition pavilion, a factory, a weather station or, indeed, an entire city. A famous example that he designed was that for the US pavilion at Expo '67 in Montreal. A geodesic dome is generally spherical in form, the chief structural elements of which are interconnected in a geodesic pattern, i.e. one in which the lines connecting two points are the shortest possible. The structure is composed of slender, lightweight struts (usually of aluminium) arranged in geometrical patterns, with the metal skeleton covered by a light, plastic material. Inside the dome, all the space is usable and the climate is controllable. Fuller wrote and lectured widely on his patented invention, explaining the importance of structural research particularly in relation to world needs.[br]Bibliography1975, Synergetics: Exploration on the Geometry of Thinking, Macmillan.1973, with R.W.Marks, The Dymaxion World of Buckminster Fuller, New York: Reprint Anchor.Further ReadingM.Pawley, 1990, Buckminster Fuller, Trefoil Books.DYBiographical history of technology > Fuller, Richard Buckminster
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15 key
1) (криптографический) ключ2) ключ к замку или запирающему устройству, механический ключ- base key- candidate key- card key- code key- data key- DES key- fake key- file key- good key- hex key- host key- link key- lost key- node key- numeric key- numerical key- pass key- PRN key- safe key- seed key- test key- true key- used key- user key- weak key- work key- zone key -
16 Cartwright, Revd Edmund
[br]b. 24 April 1743 Marnham, Nottingham, Englandd. 30 October 1823 Hastings, Sussex, England[br]English inventor of the power loom, a combing machine and machines for making ropes, bread and bricks as well as agricultural improvements.[br]Edmund Cartwright, the fourth son of William Cartwright, was educated at Wakefield Grammar School, and went to University College, Oxford, at the age of 14. By special act of convocation in 1764, he was elected Fellow of Magdalen College. He married Alice Whitaker in 1772 and soon after was given the ecclesiastical living of Brampton in Derbyshire. In 1779 he was presented with the living of Goadby, Marwood, Leicestershire, where he wrote poems, reviewed new works, and began agricultural experiments. A visit to Matlock in the summer of 1784 introduced him to the inventions of Richard Arkwright and he asked why weaving could not be mechanized in a similar manner to spinning. This began a remarkable career of inventions.Cartwright returned home and built a loom which required two strong men to operate it. This was the first attempt in England to develop a power loom. It had a vertical warp, the reed fell with the weight of at least half a hundredweight and, to quote Gartwright's own words, "the springs which threw the shuttle were strong enough to throw a Congreive [sic] rocket" (Strickland 19.71:8—for background to the "rocket" comparison, see Congreve, Sir William). Nevertheless, it had the same three basics of weaving that still remain today in modern power looms: shedding or dividing the warp; picking or projecting the shuttle with the weft; and beating that pick of weft into place with a reed. This loom he proudly patented in 1785, and then he went to look at hand looms and was surprised to see how simply they operated. Further improvements to his own loom, covered by two more patents in 1786 and 1787, produced a machine with the more conventional horizontal layout that showed promise; however, the Manchester merchants whom he visited were not interested. He patented more improvements in 1788 as a result of the experience gained in 1786 through establishing a factory at Doncaster with power looms worked by a bull that were the ancestors of modern ones. Twenty-four looms driven by steam-power were installed in Manchester in 1791, but the mill was burned down and no one repeated the experiment. The Doncaster mill was sold in 1793, Cartwright having lost £30,000, However, in 1809 Parliament voted him £10,000 because his looms were then coming into general use.In 1789 he began working on a wool-combing machine which he patented in 1790, with further improvements in 1792. This seems to have been the earliest instance of mechanized combing. It used a circular revolving comb from which the long fibres or "top" were. carried off into a can, and a smaller cylinder-comb for teasing out short fibres or "noils", which were taken off by hand. Its output equalled that of twenty hand combers, but it was only relatively successful. It was employed in various Leicestershire and Yorkshire mills, but infringements were frequent and costly to resist. The patent was prolonged for fourteen years after 1801, but even then Cartwright did not make any profit. His 1792 patent also included a machine to make ropes with the outstanding and basic invention of the "cordelier" which he communicated to his friends, including Robert Fulton, but again it brought little financial benefit. As a result of these problems and the lack of remuneration for his inventions, Cartwright moved to London in 1796 and for a time lived in a house built with geometrical bricks of his own design.Other inventions followed fast, including a tread-wheel for cranes, metallic packing for pistons in steam-engines, and bread-making and brick-making machines, to mention but a few. He had already returned to agricultural improvements and he put forward suggestions in 1793 for a reaping machine. In 1801 he received a prize from the Board of Agriculture for an essay on husbandry, which was followed in 1803 by a silver medal for the invention of a three-furrow plough and in 1805 by a gold medal for his essay on manures. From 1801 to 1807 he ran an experimental farm on the Duke of Bedford's estates at Woburn.From 1786 until his death he was a prebendary of Lincoln. In about 1810 he bought a small farm at Hollanden near Sevenoaks, Kent, where he continued his inventions, both agricultural and general. Inventing to the last, he died at Hastings and was buried in Battle church.[br]Principal Honours and DistinctionsBoard of Agriculture Prize 1801 (for an essay on agriculture). Society of Arts, Silver Medal 1803 (for his three-furrow plough); Gold Medal 1805 (for an essay on agricultural improvements).Bibliography1785. British patent no. 1,270 (power loom).1786. British patent no. 1,565 (improved power loom). 1787. British patent no. 1,616 (improved power loom).1788. British patent no. 1,676 (improved power loom). 1790, British patent no. 1,747 (wool-combing machine).1790, British patent no. 1,787 (wool-combing machine).1792, British patent no. 1,876 (improved wool-combing machine and rope-making machine with cordelier).Further ReadingM.Strickland, 1843, A Memoir of the Life, Writings and Mechanical Inventions of Edmund Cartwright, D.D., F.R.S., London (remains the fullest biography of Cartwright).Dictionary of National Biography (a good summary of Cartwright's life). For discussions of Cartwright's weaving inventions, see: A.Barlow, 1878, The History and Principles of Weaving by Hand and by Power, London; R.L. Hills, 1970, Power in the Industrial Revolution, Manchester. F.Nasmith, 1925–6, "Fathers of machine cotton manufacture", Transactions of theNewcomen Society 6.H.W.Dickinson, 1942–3, "A condensed history of rope-making", Transactions of the Newcomen Society 23.W.English, 1969, The Textile Industry, London (covers both his power loom and his wool -combing machine).RLHBiographical history of technology > Cartwright, Revd Edmund
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17 site
1) (a place where a building, town etc is, was, or is to be, built: He's got a job on a building-site; The site for the new factory has not been decided.) beliggenhet, (bygge)plass2) ((also Web site) a site on the Internet that gives information about a particular subject or person.) nettstedplassIsubst. \/saɪt\/1) ( også building site) (bygge)tomt, byggeplass2) sted, åsted• where's the site of the murder?3) beliggenhet4) ( arkeologi) funnsted5) ( ballistikk) høydevinkel6) ( skogbruk) voksested7) ( våpenteknisk taktikk) del av ildordre8) ( data) nettsted, internettstedIIverb \/saɪt\/plassere, lokalisere, anbringe -
18 ship
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19 Allen, John F.
SUBJECT AREA: Steam and internal combustion engines[br]b. 1829 Englandd. 2 October 1900 New York (?), USA[br]English inventor of the Allen valve used on his pioneering high-speed engines.[br]Allen was taken to the United States from England when he was 12 years old. He became an engineer on the Curlew, a freight boat running between New York and Providence. A defect which caused the engine to race in rough weather led Allen to invent a new valve gear, but he found it could not be fitted to the Corliss engine. In 1856 he patented an improved form of valve and operating gear to reduce back-pressure in the cylinder, which was in fact the reverse of what happened in his later engines. In 1860 he repaired the engines of a New York felt-hat manufacturer, Henry Burr, and that winter he was introduced to Charles Porter. Porter realized the potential of Allen's valves for his idea of a high-speed engine, and the Porter-Allen engine became the pioneer of high-speed designs.Porter persuaded Allen to patent his new valves and two patents were obtained in 1862. These valves could be driven positively and yet the travel of the inlet could be varied to give the maximum expansion at different cut-offs. Also, the valves allowed an exceptionally good flow of steam. While Porter went to England and tried to interest manufacturers there, Allen remained in America and continued work on the engine. Within a few years he invented an inclined watertube boiler, but he seemed incapable of furthering his inventions once they had been placed on the market. Although he mortgaged his own house in order to help finance the factory for building the steam engine, in the early 1870s he left Porter and built a workshop of his own at Mott Haven. There he invented important systems for riveting by pneumatic machines through both percussion and pressure which led into the production of air compressors and riveting machines.[br]Further ReadingObituaries appeared in engineering journals at the time of his death.Dictionary of American Biography, 1928, Vol. I, New York: C.Scribner's Sons. C.T.Porter, 1908, Engineering Reminiscences, New York: J.Wiley \& Sons, reprint 1985, Bradley, Ill.: Lindsay Publications (provides details of Allen's valve design).R.L.Hills, 1989, Power from Steam. A History of the Stationary Steam Engine, Cambridge University Press (covers the development of the Porter-Allen engine).RLH
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