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1 principal quality engineer
PQE, Бр principal quality engineerEnglish-Russian dictionary of planing, cross-planing and slotting machines > principal quality engineer
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2 principal quality engineer
Военный термин: старший инженер по качествуУниверсальный англо-русский словарь > principal quality engineer
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3 principal quality engineer
Military: PQEУниверсальный русско-английский словарь > principal quality engineer
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4 engineer
1) инженер2) конструктор; разработчик || конструировать; проектировать; разрабатывать3) механик, слесарь-механик; наладчик4) оператор машины; машинист5) строить; сооружать•to reverse engineer — разрабатывать техническую документацию по готовому изделию ( при отсутствии чертежей)
- advanced manufacturing engineerto system engineer — проектировать системно (напр. станок), проектировать с учётом встройки в систему, проектировать с учётом встройки в автоматизированную систему
- application engineer
- computer engineer
- computer software engineer
- control engineer
- design engineer
- development engineer
- developmental engineer
- electrical engineer
- heavy machining engineer
- industrial engineer
- inspecting engineer
- knowledge engineer
- lead engineer
- maintenance engineer
- manufacturing engineer
- mechanical design engineer
- mechanical engineer
- multidiscipline engineer
- part-programming engineer
- planning engineer
- precision engineer
- principal engineer
- process engineer
- product engineer
- production control engineer
- production engineer
- project engineer
- prove-out engineer
- QC engineer
- quality assurance engineer
- quality control engineer
- quality engineer
- research engineer
- research-and-development engineer
- safety engineer
- sales engineer
- service engineer
- staff engineer
- system engineer
- systems engineer
- technical sales engineer
- tooling engineer
- work study engineerEnglish-Russian dictionary of mechanical engineering and automation > engineer
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5 engineer
1) инженер; мн. ч. инженерно-технический персонал2) механик4) разрабатывать; проектировать; конструировать•-
advisory engineer
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aeronautical engineer
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air-conditioning engineer
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aircraft maintenance engineer
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application engineer
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automatic control engineer
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automation engineer
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balance engineer
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blast-furnace engineer
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ceramic engineer
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chemical engineer
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chief engineer
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civil engineer
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coal preparation engineer
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coke-chemical engineer
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coking engineer
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combustion engineer
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computer engineer
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consulting engineer
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corrosion engineer
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customer engineer
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design engineer
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development engineer
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district engineer
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drilling engineer
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efficiency engineer
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electrical engineer
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electronics engineer
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electronic engineer
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environmental engineer
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equipment engineer
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field engineer
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fleet engineer
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flight engineer
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fluid power engineer
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food engineer
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gas engineer
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geotechnical engineer
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grade control engineer
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grid-control engineer
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hardware design engineer
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hardware engineer
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health and safety engineer
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heating and ventilation engineer
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hydraulic engineer
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industrial engineer
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instrument-maintenance engineer
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junior engineer
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knowledge engineer
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lighting engineer
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locating engineer
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logging engineer
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machine engineer
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maintenance engineer
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maintenance-mechanical engineer
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manufacturing engineer
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material engineer
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mechanical engineer
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metallurgical engineer
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mining engineer
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motion-picture engineer
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municipal engineer
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nuclear engineer
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oil engineer
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operating engineer
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operating-refrigerating engineer
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operation engineer
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patent engineer
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petroleum engineer
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planning engineer
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plant engineer
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plant-communication engineer
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plant-operating engineer
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plumbing engineer
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pneumatic engineer
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power engineer
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principal engineer
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process engineer
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protection engineer
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quality engineer
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quarry engineer
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radio engineer
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railway-service engineer
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rate-setting engineer
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raw-materials engineer
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reclamation engineer
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recording engineer
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refinery engineer
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refractories engineer
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refrigeration engineer
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research engineer
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reservoir engineer
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resident engineer
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safety engineer
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sales engineer
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sanitary engineer
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scrap-processing engineer
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second engineer
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senior engineer
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service engineer
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shift engineer
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software engineer
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steelmaking engineer
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structural engineer
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studio engineer
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supplies engineer
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systems design engineer
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systems engineer
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testing engineer
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test engineer
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tool engineer
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tooling engineer
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traction engineer
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training flight engineer
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utility engineer
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vacuum engineer
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ventilation engineer
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video engineer
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vision-control engineer
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vision engineer
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vision-mixing engineer
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works-traffic engineer
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yarder engineer -
6 engineer
1. инженер2. механик3. машинист4. сапёр
* * *
инженер; конструктор; pl. инженерно-технические работники
* * *
* * *
инженер; конструктор; pl инженерно-технические работники- cementing engineer
- certified reliability engineer
- chemical engineer
- chief reliability engineer
- corrosion engineer
- defect analysis engineer
- directional engineer
- drilling engineer
- drilling mud engineer
- electrical engineer
- failure analysis engineer
- field engineer
- field service engineer
- gas engineer
- geological engineer
- health-and-safety engineer
- hydraulic engineer
- inspecting engineer
- logging engineer
- maintainability engineer
- maintenance engineer
- maintenance-mechanical engineer
- mechanical engineer
- mining engineer
- mud engineer
- oil engineer
- operating engineer
- operation engineer
- petroleum engineer
- piping mechanical engineer
- principal project engineer
- product assurance engineer
- refinery engineer
- reliability engineer
- reliability group engineer
- reliability methods engineer
- reliability testing engineer
- reservoir engineer
- safety engineer
- service engineer
- superintendent engineer
- testing engineerАнгло-русский словарь нефтегазовой промышленности > engineer
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7 PQE
1) Общая лексика: Post Qualification Experience (AD)2) Американизм: Performance Quality Evaluation3) Военный термин: principal quality engineer, production quality engineer, project quality engineering4) Юридический термин: post-qualification experience5) Бухгалтерия: Pina Quadrics Europe6) Сокращение: Path Quality Evaluation7) Вычислительная техника: элемент очереди разделов8) Фирменный знак: Perfect Quest for Enlightenment9) Образование: Partners for Quality Education10) Контроль качества: procurement quality engineering11) Снабжение: procurement quality engineer12) Общественная организация: Partnerships for Quality Education -
8 PQE
PQE, Бр principal quality engineer————————PQE, production quality engineer————————PQE, project quality engineeringEnglish-Russian dictionary of planing, cross-planing and slotting machines > PQE
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9 старший инженер по качеству
Military: principal quality engineerУниверсальный русско-английский словарь > старший инженер по качеству
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10 главный инженер проекта
1) Construction: project structural engineer3) Hydroelectric power stations: design chief engineer4) EBRD: project manager (ГИП)5) Automation: project engineer6) Quality control: chief project engineer7) Makarov: project leader8) Research and development: project engineer / designУниверсальный русско-английский словарь > главный инженер проекта
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11 cuerpo
m.1 body.a cuerpo without a coat onde cuerpo entero full-length (retrato, espejo)en cuerpo y alma body and soulluchar cuerpo a cuerpo to fight hand-to-handde cuerpo presente (lying) in statetomar cuerpo to take shapevivir a cuerpo de rey to live like a king¡cuerpo a tierra! hit the ground!, get down!cuerpo celeste heavenly bodycuerpo extraño foreign bodyel cuerpo humano the human body2 main body (parte principal).3 thickness (consistencia).mover hasta que la mezcla tome cuerpo stir until the mixture thickensel proyecto de nuevo aeropuerto va tomando cuerpo the new airport project is taking shape4 corps.cuerpo diplomático diplomatic corpscuerpo de policía police force5 section (parte de armario, edificio).6 point (Imprenta) (de letra).7 corpus, body, main section of a bodily part, main section of an organism.8 mass of tissue, corpus.* * *1 ANATOMÍA body2 (constitución) build4 (tronco) trunk5 (grupo) body, force, corps6 (cadáver) corpse, body7 (parte) section, part; (parte principal) main part, main body8 QUÍMICA substance9 FÍSICA body10 (vino, tela, etc) body11 DEPORTE length\a cuerpo descubierto defenceless (US defenseless)cuerpo a cuerpo hand-to-handde cuerpo entero full-lengthen cuerpo y alma figurado heart and soul, body and soulestar de cuerpo presente to lie in statehacer de cuerpo eufemístico to relieve oneselfno tener nada en el cuerpo to have an empty stomachtener buen cuerpo to have a good figuretomar cuerpo figurado to take shapecuerpo de baile corps de balletcuerpo del delito DERECHO evidence, corpus delicticuerpo diplomático diplomatic corpscuerpo legislativo legislative bodycuerpo geométrico regular solidcuerpos celestes heavenly bodies* * *noun m.1) body2) corps* * *SM1) (Anat) bodyme dolía todo el cuerpo — my body was aching all over, I was aching all over
cuerpo a cuerpo —
un cuerpo a cuerpo entre los dos políticos — a head-on o head-to-head confrontation between the two politicians
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cuerpo serrano — hum body to die for•
¡cuerpo a tierra! — hit the ground!dar con el cuerpo en tierra — to fall down, fall to the ground
a cuerpo gentil —
a cuerpo de rey —
hurtó el cuerpo y eludió a sus vecinos — he sneaked off o away and avoided his neighbours
pedirle a algn algo el cuerpo —
hice lo que en ese momento me pedía el cuerpo — I did what my body was telling me to do at that moment
2) (=cadáver) body, corpseencontraron el cuerpo entre los matorrales — they found the body o corpse in the bushes
de cuerpo presente: su marido aún estaba de cuerpo presente — her husband had not yet been buried
funeral de cuerpo presente — funeral service, funeral
3) (=grupo)cuerpo de bomberos — fire brigade, fire department (EEUU)
4) (=parte) [de mueble] section, part; [de un vestido] bodice; (=parte principal) main body5) (=objeto) body, object6) (=consistencia) [de vino] body•
dar cuerpo a algo, el suavizante que da cuerpo a su cabello — the conditioner that gives your hair bodysugirieron varios puntos para dar cuerpo al proyecto — they suggested several points to round out o give more substance to the project
7) (Tip) [de letra] point, point size* * *1)a) (Anat) bodytenía el miedo metido en el cuerpo — (fam) he was scared stiff (colloq)
a cuerpo de rey — (fam)
a cuerpo gentil — (fam) without a coat (o sweater etc)
echarse algo al cuerpo — (fam) < comida> to have something to eat; < bebida> to have something to drink
pedirle el cuerpo algo a alguien — (fam)
sacar(le) el cuerpo a alguien — (AmL fam) to steer clear of somebody
sacar(le) el cuerpo a algo — (AmL fam) ( a trabajo) to get out of something; ( a responsabilidad) to evade o shirk something
b) ( cadáver) body, corpseencontraron su cuerpo sin vida junto al río — (period) his lifeless body was found by the river (frml)
c) ( tronco) body2) (Equ) length3)a) ( parte principal) main bodyb) ( de mueble) part; ( de edificio) section4) (conjunto de personas, de ideas, normas) body6) (consistencia, densidad) bodydar/tomar cuerpo — idea/escultura to take shape
* * *= body, body, type size, body-size, corps, shank, cadaver, soma.Ex. But when he speaks to me he always scans my body and stares at my breasts.Ex. Cartographic materials are, according to AACR2, all the materials that represent, in whole or in part, the earth or any celestial body.Ex. Using golf-ball or daisy-wheel typewriters a good range of typefaces can be used on the same page; different type sizes can also be used.Ex. A fount of type was a set of letters and other symbols in which each was supplied in approximate proportion to its frequency of use, all being of one body-size and design.Ex. Quality abstracting services take pride in their corps of abstractors.Ex. Another device was to make matrices for accented sorts with the punches already used for unaccented sorts: the letter punch was stepped on its shank so that one of several accent punches could be bound on to the step to make a combined punch.Ex. Rather than bringing in butchers to do the handiwork of his dissections, Vesalius himself worked on the human cadavers and said that students of medicine should do the same.Ex. Pyramidal neurons, also known as pyramidal cells, are neurons with a pyramidal-shaped cell body ( soma) and two distinct dendritic trees.----* a cuerpo de rey = the lap of luxury.* crema para el cuerlpo = body lotion.* cuerpo calloso = corpus callosum.* cuerpo celeste = celestial body, heavenly body.* cuerpo Danone = body beautiful.* cuerpo de animal muerto = carcass.* cuerpo de bomberos = fire department.* cuerpo de estanterías = bay of shelves, range of shelving, range, bay of shelving.* cuerpo de estanterías por materia = subject bay.* cuerpo de inspectores = inspectorate.* cuerpo de la ficha = body of the card.* Cuerpo de Marina = Navy Corps.* Cuerpo de Paz, el = Peace Corps.* Cuerpo de Zapadores = Army Corps Engineers.* cuerpo expedicionario = expeditionary force.* cuerpo extraño = foreign body.* cuerpo humano, el = human body, the.* cuerpo político, el = body politic, the.* cuerpo sin vida = dead body.* culto al cuerpo = cult of the body, body beautiful.* dar cuerpo = give + substance.* dar cuerpo a = flesh out.* dar cuerpo y forma a = lend + substance and form to.* de cuerpo largo = long-bodied.* del cuerpo = body.* foto de medio cuerpo = mugshot [mug shot].* ingeniero del cuerpo de zapadores = Army Corps engineer.* luchar cuerpo a cuerpo = clinch.* miembro del cuerpo = limb.* órgano del cuerpo = limb, body part.* pegado al cuerpo = slinky [slinkier -comp., slinkiest -sup.].* ponerse en forma para la lucir el cuerpo en la playa = get + beach-fit.* que cubre todo el cuerpo = head to toe.* seguro por pérdida de un miembro del cuerpo = dismemberment insurance.* temperatura del cuerpo = body temperature.* vivir a cuerpo de rey = live like + a king, live in + the lap of luxury.* * *1)a) (Anat) bodytenía el miedo metido en el cuerpo — (fam) he was scared stiff (colloq)
a cuerpo de rey — (fam)
a cuerpo gentil — (fam) without a coat (o sweater etc)
echarse algo al cuerpo — (fam) < comida> to have something to eat; < bebida> to have something to drink
pedirle el cuerpo algo a alguien — (fam)
sacar(le) el cuerpo a alguien — (AmL fam) to steer clear of somebody
sacar(le) el cuerpo a algo — (AmL fam) ( a trabajo) to get out of something; ( a responsabilidad) to evade o shirk something
b) ( cadáver) body, corpseencontraron su cuerpo sin vida junto al río — (period) his lifeless body was found by the river (frml)
c) ( tronco) body2) (Equ) length3)a) ( parte principal) main bodyb) ( de mueble) part; ( de edificio) section4) (conjunto de personas, de ideas, normas) body6) (consistencia, densidad) bodydar/tomar cuerpo — idea/escultura to take shape
* * *= body, body, type size, body-size, corps, shank, cadaver, soma.Ex: But when he speaks to me he always scans my body and stares at my breasts.
Ex: Cartographic materials are, according to AACR2, all the materials that represent, in whole or in part, the earth or any celestial body.Ex: Using golf-ball or daisy-wheel typewriters a good range of typefaces can be used on the same page; different type sizes can also be used.Ex: A fount of type was a set of letters and other symbols in which each was supplied in approximate proportion to its frequency of use, all being of one body-size and design.Ex: Quality abstracting services take pride in their corps of abstractors.Ex: Another device was to make matrices for accented sorts with the punches already used for unaccented sorts: the letter punch was stepped on its shank so that one of several accent punches could be bound on to the step to make a combined punch.Ex: Rather than bringing in butchers to do the handiwork of his dissections, Vesalius himself worked on the human cadavers and said that students of medicine should do the same.Ex: Pyramidal neurons, also known as pyramidal cells, are neurons with a pyramidal-shaped cell body ( soma) and two distinct dendritic trees.* a cuerpo de rey = the lap of luxury.* crema para el cuerlpo = body lotion.* cuerpo calloso = corpus callosum.* cuerpo celeste = celestial body, heavenly body.* cuerpo Danone = body beautiful.* cuerpo de animal muerto = carcass.* cuerpo de bomberos = fire department.* cuerpo de estanterías = bay of shelves, range of shelving, range, bay of shelving.* cuerpo de estanterías por materia = subject bay.* cuerpo de inspectores = inspectorate.* cuerpo de la ficha = body of the card.* Cuerpo de Marina = Navy Corps.* Cuerpo de Paz, el = Peace Corps.* Cuerpo de Zapadores = Army Corps Engineers.* cuerpo expedicionario = expeditionary force.* cuerpo extraño = foreign body.* cuerpo humano, el = human body, the.* cuerpo político, el = body politic, the.* cuerpo sin vida = dead body.* culto al cuerpo = cult of the body, body beautiful.* dar cuerpo = give + substance.* dar cuerpo a = flesh out.* dar cuerpo y forma a = lend + substance and form to.* de cuerpo largo = long-bodied.* del cuerpo = body.* foto de medio cuerpo = mugshot [mug shot].* ingeniero del cuerpo de zapadores = Army Corps engineer.* luchar cuerpo a cuerpo = clinch.* miembro del cuerpo = limb.* órgano del cuerpo = limb, body part.* pegado al cuerpo = slinky [slinkier -comp., slinkiest -sup.].* ponerse en forma para la lucir el cuerpo en la playa = get + beach-fit.* que cubre todo el cuerpo = head to toe.* seguro por pérdida de un miembro del cuerpo = dismemberment insurance.* temperatura del cuerpo = body temperature.* vivir a cuerpo de rey = live like + a king, live in + the lap of luxury.* * *A1 [ Vocabulary notes (Spanish) ] ( Anat) bodyle dolía todo el cuerpo his whole body achedes de cuerpo muy menudo she's very slightly built o she has a very slight buildun retrato/espejo de cuerpo entero a full-length portrait/mirrornos atendieron a cuerpo de rey they treated us like royalty, they gave us real V.I.P. treatment ( colloq)cuerpo a cuerpo hand-to-handen un combate cuerpo a cuerpo in hand-to-hand combatdárselo a algn el cuerpo ( fam): me lo daba el cuerpo que algo había ocurrido I had a feeling that something had happenedecharse algo al cuerpo ( fam); ‹comida› to have sth to eat;‹bebida› to have sth to drink, knock sth back ( colloq)en cuerpo y alma ( fam); wholeheartedlyhurtarle el cuerpo a algo to dodge sthlogró hurtarle el cuerpo al golpe she managed to dodge the blowel cuerpo le pedía un descanso he felt he had to have a rest, his body was crying out for a restpintar or retratar a algn de cuerpo entero: en pocas líneas pinta al personaje de cuerpo entero in a few lines she gives you a complete picture of what the character is likeeso lo pinta de cuerpo entero that shows him in his true colors, that shows him for what he issacar(le) el cuerpo a algo ( AmL fam) (a un trabajo) to get out of sth; (a una responsabilidad) to evade o shirk sth2 (cadáver) body, corpseallí encontraron su cuerpo sin vida ( frml); his lifeless body was found there3 (tronco) bodyCompuesto:corpus delictiganó por tres cuerpos de ventaja she won by three lengthsC1 (parte principal) main body2 (de un mueble) part; (de un edificio) sectionun armario de dos cuerpos a double wardrobe1 (de personas) bodyse negaron a hacer declaraciones como cuerpo they refused to make any statement as a body o groupsu separación del cuerpo his dismissal from the force ( o service etc)2 (de ideas, normas) bodyCompuestos:corps de balletbody of teachingbody of lawspeace corpspolice forcesecurity corpsdiplomatic corpselectoratelegislative bodymedical corpsE ( Fís)1 (objeto) body, object2 (sustancia) substanceCompuestos:heavenly bodycompoundforeign bodygeometric shape o figureelementF (consistencia, densidad) bodyuna tela de mucho cuerpo a heavy clothun vino de mucho cuerpo a full-bodied winele da cuerpo al pelo it gives the hair bodydar/tomar cuerpo: la escultura iba tomando cuerpo the sculpture was taking shapehay que dar cuerpo legal a estas asociaciones we have to give legal status to these organizationsG ( Impr) point size* * *
cuerpo sustantivo masculino
1a) (Anat) body;
retrato/espejo de cuerpo entero full-length portrait/mirror;
cuerpo a cuerpo hand-to-hand
2 (conjunto de personas, de ideas, normas) body;
cuerpo de policía police force;
cuerpo diplomático diplomatic corps
3 (consistencia, densidad) body;
‹ vino› full-bodied
cuerpo sustantivo masculino
1 body
2 (humano) body, (tronco humano) trunk
3 (cadáver) corpse
4 (de un edificio o mueble) section, part
un armario de tres cuerpos, a wardrobe with three sections
(de un libro, una doctrina) body
5 (grupo) corps, force
cuerpo de bomberos, fire brigade
cuerpo diplomático, diplomatic corps
♦ Locuciones: figurado tomar cuerpo, to take shape
a cuerpo de rey, like a king
cuerpo a cuerpo, hand-to-hand
de cuerpo entero, full-length
de cuerpo presente, lying in state
un retrato de medio cuerpo, a half portrait
' cuerpo' also found in these entries:
Spanish:
abotargarse
- adormecerse
- apéndice
- caída
- caído
- cd
- deformar
- deformarse
- delito
- derecha
- derecho
- desnuda
- desnudo
- dilatar
- dilatarse
- diplomática
- diplomático
- el
- encima
- encoger
- extraña
- extraño
- grasa
- guardia
- holgada
- holgado
- inclinación
- interfecta
- interfecto
- línea
- llaga
- lugar
- perecedera
- perecedero
- proporcionada
- proporcionado
- quiebro
- rebanar
- reclinar
- silueta
- titilar
- vaivén
- volverse
- abotagado
- asamblea
- bola
- bombero
- bulto
- cana
- carga
English:
attitude
- bar
- beauty spot
- bodice
- body
- bow
- bruise
- corps
- decay
- diplomatic corps
- figure
- fire brigade
- fire department
- force
- full-length
- hair
- legislative
- over
- police force
- position
- proportionate
- their
- tingly
- carcass
- department
- faculty
- fellow
- fire
- foreign
- full
- length
- profession
- riddle
- rigor mortis
- wash
* * *cuerpo nm1. [objeto material] bodyAstron cuerpo celeste heavenly body; Quím cuerpo compuesto compound;cuerpo extraño foreign body;Náut cuerpo muerto mooring buoy; Fís cuerpo negro black body; Quím cuerpo simple element2. [de persona, animal] body;el cuerpo humano the human body;tiene un cuerpo estupendo he's got a great body;¡cuerpo a tierra! hit the ground!, get down!;luchar cuerpo a cuerpo to fight hand-to-hand;de medio cuerpo [retrato, espejo] half-length;de cuerpo entero [retrato, espejo] full-length;Fama cuerpo (gentil) without a coat on;a cuerpo descubierto o [m5]limpio: se enfrentaron a cuerpo descubierto o [m5] limpio they fought each other hand-to-hand;dar con el cuerpo en la tierra to fall down;Famdejar mal cuerpo: la comida le dejó muy mal cuerpo the meal disagreed with him;la discusión con mi padre me dejó muy mal cuerpo the argument with my father left a bad taste in my mouth;en cuerpo y alma: se dedicó en cuerpo y alma a ayudar a los necesitados he devoted himself body and soul to helping the poor;se entrega en cuerpo y alma a la empresa she gives her all for the company;Famdemasiado para el cuerpo: ¡esta película es demasiado para el cuerpo! this movie o Br film is just great!, Br this film is the business!;echarse algo al cuerpo: se echó al cuerpo dos botellas de vino he downed two bottles of wine;Fam Eufhacer de cuerpo to relieve oneself;le metieron el miedo en el cuerpo they filled her with fear, they scared her stiff;Fampedir algo el cuerpo: esta noche el cuerpo me pide bailar I'm in the mood for dancing tonight;no bebas más si no te lo pide el cuerpo don't have any more to drink if you don't feel like it;Am Famsacarle el cuerpo a algo to get out of (doing) sth;RP Fama pesar de todo lo que le dije, después se me acercó muy suelto de cuerpo despite everything I said to him, he came up to me later as cool o nice as you like;Famtratar a alguien a cuerpo de rey to treat sb like royalty o like a king;Famvivir a cuerpo de rey to live like a king3. [tronco] trunk4. [parte principal] main body;el cuerpo del libro the main part o body of the book5. [densidad, consistencia] thickness;la tela de este vestido tiene mucho cuerpo this dress is made from a very heavy cloth;un vino con mucho cuerpo a full-bodied wine;dar cuerpo a [salsa] to thicken;tomar cuerpo: mover hasta que la mezcla tome cuerpo stir until the mixture thickens;están tomando cuerpo los rumores de remodelación del gobierno the rumoured cabinet reshuffle is beginning to look like a distinct possibility;el proyecto de nuevo aeropuerto va tomando cuerpo the new airport project is taking shape6. [cadáver] body, corpse;de cuerpo presente (lying) in state7. [corporación consular, militar] corps;el agente fue expulsado del cuerpo por indisciplina the policeman was thrown out of the force for indisciplinecuerpo de baile dance company;cuerpo diplomático diplomatic corps;cuerpo del ejército army corps;cuerpo expedicionario expeditionary force;cuerpo médico medical corps;cuerpo de policía police force8. [conjunto de informaciones] body;cuerpo de doctrina body of ideas, doctrine;cuerpo legal body of legislation9. [parte de armario, edificio] section10. [parte de vestido] body, bodice11. [en carreras] length;el caballo ganó por cuatro cuerpos the horse won by four lengths13. Imprenta point;letra de cuerpo diez ten point font* * *m1 body;cuerpo a cuerpo hand-to-hand;retrato de cuerpo entero/de medio cuerpo full-length/half-length portrait;a cuerpo de rey like a king;en cuerpo y alma body and soul;aún estaba de cuerpo presente he had not yet been buried;me lo pide el cuerpo I feel like it;hacer del cuerpo euph do one’s business2 de policía force;cuerpo (de ejército) corps3:tomar cuerpo take shape* * *cuerpo nm1) : body2) : corps* * *cuerpo n2. (tronco) trunk -
12 Vermuyden, Sir Cornelius
SUBJECT AREA: Civil engineering[br]b. c. 1590 St Maartensdijk, Zeeland, the Netherlandsd. 4 February 1656 probably London, England[br]Dutch/British civil engineer responsible for many of the drainage and flood-protection schemes in low-lying areas of England in the seventeenth century.[br]At the beginning of the seventeenth century, several wealthy men in England joined forces as "adventurers" to put their money into land ventures. One such group was responsible for the draining of the Fens. The first need was to find engineers who were versed in the processes of land drainage, particularly when that land was at, or below, sea level. It was natural, therefore, to turn to the Netherlands to find these skilled men. Joachim Liens was one of the first of the Dutch engineers to go to England, and he started work on the Great Level; however, no real progress was made until 1621, when Cornelius Vermuyden was brought to England to assist in the work.Vermuyden had grown up in a district where he could see for himself the techniques of embanking and reclaiming land from the sea. He acquired a reputation of expertise in this field, and by 1621 his fame had spread to England. In that year the Thames had flooded and breached its banks near Havering and Dagenham in Essex. Vermuyden was commissioned to repair the breach and drain neighbouring marshland, with what he claimed as complete success. The Commissioners of Sewers for Essex disputed this claim and whthheld his fee, but King Charles I granted him a portion of the reclaimed land as compensation.In 1626 Vermuyden carried out his first scheme for drainage works as a consultant. This was the drainage of Hatfield Chase in South Yorkshire. Charles I was, in fact, Vermuyden's employer in the drainage of the Chase, and the work was undertaken as a means of raising additional rents for the Royal Exchequer. Vermuyden was himself an "adventurer" in the undertaking, putting capital into the venture and receiving the title to a considerable proportion of the drained lands. One of the important elements of his drainage designs was the principal of "washes", which were flat areas between the protective dykes and the rivers to carry flood waters, to prevent them spreading on to nearby land. Vermuyden faced bitter opposition from those whose livelihoods depended on the marshlands and who resorted to sabotage of the embankments and violence against his imported Dutch workmen to defend their rights. The work could not be completed until arbiters had ruled out on the respective rights of the parties involved. Disagreements and criticism of his engineering practices continued and he gave up his interest in Hatfield Chase. The Hatfield Chase undertaking was not a great success, although the land is now rich farmland around the river Don in Doncaster. However, the involved financial and land-ownership arrangements were the key to the granting of a knighthood to Cornelius Vermuyden in January 1628, and in 1630 he purchased 4,000 acres of low-lying land on Sedgemoor in Somerset.In 1629 Vermuyden embarked on his most important work, that of draining the Great Level in the fenlands of East Anglia. Francis Russell, 4th Earl of Bedford, was given charge of the work, with Vermuyden as Engineer; in this venture they were speculators and partners and were recompensed by a grant of land. The area which contains the Cambridgeshire tributaries of the Great Ouse were subject to severe and usually annual flooding. The works to contain the rivers in their flood period were important. Whilst the rivers were contained with the enclosed flood plain, the land beyond became highly sought-after because of the quality of the soil. The fourteen "adventurers" who eventually came into partnership with the Earl of Bedford and Vermuyden were the financiers of the scheme and also received land in accordance with their input into the scheme. In 1637 the work was claimed to be complete, but this was disputed, with Vermuyden defending himself against criticism in a pamphlet entitled Discourse Touching the Great Fennes (1638; 1642, London). In fact, much remained to be done, and after an interruption due to the Civil War the scheme was finished in 1652. Whilst the process of the Great Level works had closely involved the King, Oliver Cromwell was equally concerned over the success of the scheme. By 1655 Cornelius Vermuyden had ceased to have anything to do with the Great Level. At that stage he was asked to account for large sums granted to him to expedite the work but was unable to do so; most of his assets were seized to cover the deficiency, and from then on he subsided into obscurity and poverty.While Cornelius Vermuyden, as a Dutchman, was well versed in the drainage needs of his own country, he developed his skills as a hydraulic engineer in England and drained acres of derelict flooded land.[br]Principal Honours and DistinctionsKnighted 1628.Further ReadingL.E.Harris, 1953, Vermuyden and the Fens, London: Cleaver Hume Press. J.Korthals-Altes, 1977, Sir Cornelius Vermuyden: The Lifework of a Great Anglo-Dutchman in Land-Reclamation and Drainage, New York: Alto Press.KM / LRDBiographical history of technology > Vermuyden, Sir Cornelius
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13 system
1) система; сеть; комплекс2) установка, устройство3) план; расположение4) система; порядок; классификация•- system of catalogs - system of catalogues - system of forces - system of ground points - system of road signs - system of scaffolds - acoustic signalling system - active residential solar heating system - aeration system - air-brake system - air-comfort system - air-conditioning system - air-curtain system - air-foam system - airline system - airline vacuum system - air-pressure water system - all-outside air-conditioning system - arch system - arch-and-pier system - audible alarm system - Automated Data Management System in Building - ADMSB - automatic fire alarm system - balanced system of ventilation - bar system - basic system - beam system - blower system - British absolute system of units - building system - building central air conditioning system - building solar optical system - bypass pipe system - cable system - cantilever tieback system - cathodic protection system of pipelines - central fan electric heating system - central hot water supply system - check-board system - circulating water system - closed system - closed heat supply system - closed pipeline system - collecting system - colour spraying systems - combined extract-and-input system - combined sewerage system - community complete system in containers or skids - composite cable roof system - compressed-air system - computer-aided system - consolidated power system - control system of survey - cooling system - cooling pipe system - coordinate system - curing system - decimal system - designation system - discrete system - discrete-continual system - distributing system - district heating system - double-pipe system - double-pipeline system - double-pipe riser system - downward system of ventilation - drainage system - drencher system - drop system - dry pipe sprinkler system - dry return system - duct system - earthling system - ejector system - elastic system - electric heating system - embedded panel system - emergency power supply system - energy recovery system - engineer's system of units - filling system of navigation lock - filtration system - fire-alarm sounding system - fire-fighting system - fire-sprinkling system - fire warning system - fixing systems - flange system - flooding system - floor system - floor system of bridge - floor heating system - flow-through system - flue gas cleaning system - fluid power system - forced circulation system - four-axis system - framed system - gas heating system - glaze systems - gravity system - gravity water supply system - grid system - hazard system - heating system - heat pump system - heat supply system - high pressure air-conditioning system - high velocity air-conditioning system - hinged system - hoisting system - hot air system - hot blast system - hot water supply system - inflation system - instantaneously variable system - integral deck system - integrated dispatching system - invariable system - ion-exchange system - irrigation system - land system - large public water system - lateral system - left-handed system - lighting system - local air-conditioning system - lock-filling system - long-line system - low pressure air-conditioning system - low velocity air-conditioning system - low voltage system - main system - management system - measuring system - mechanical systems of a house - medium-size public water system - membrane system - metric system - modular coordinating space system - monitoring system - multistage gas supply system - network system - observing system - once-through system - one-layer cable system - one-pipe heating system - one-pipe loop system - open system - open heat supply system - open return system - overhead system of heating - overhead heating system - panel air system - panel cooling system - pipeline system - piping system - plane system - plumbing system - pollution control system - population settlement group system - post-tensioned system - potabilization system - power system - power-reservoir system - pressurized water treatment system - pre-tensioned system - primary system - public transport system - public water system - public waterworks system - quality control system - quarternary system - railroad system - recirculated heating system - recirculation duct air conditioning system - recool system - rectangular system of street layout - reliability coefficients system - remote control system - reusing water supply system - rigid cable roof system - ring heating system - roll-cap system - round duct system - safety valve of a hydraulic system - saprobity system - separate sewerage system - septic system - sewerage system - single duct air-conditioning system - single-stage system - single-track automatic block system - slab-stringer system - smoke-detector system - solar aquatic system - solar cooling system - solar heating system - solar thermal power system - space system - split system - sprinkler system - statically determinate system - statically indeterminate system - steel plate system - structural system - supply air system - suspension system - thermal reheat system - three-dimensional system - three-way system of reinforcement - thrust system - total energy system - two-dimensional system - two-duct air-conditioning system - two-layer cable roof system - two-pipe water heating system - underfloor heating system - underground cable system - unified modular coordination system - universal sewerage system - upfeed water heating system - up-lighting system - utility system - utility detection system - vacuum system - vandalproof system - variable air volume system - ventilation system - warning system - waste treatment system - waste water system - water system - water measuring systems - water purification system - water quality system - water quality indicator system - water supply system - water supply by zones system - water treatment systems - wind bracing system - zone system* * *1. система; сеть (напр. трубопроводов); устройство2. способ, метод- system of forcessystem in equilibrium — равновесная система, система в состоянии равновесия
- system of masses
- system of scaffolds
- ABC system
- AC system
- acoustical ceiling system
- active solar energy system
- aesthetic value system
- air classification system
- air cycle refrigerating system
- airfield soil classification system
- air pollution control system
- air-to-air system
- air-to-water system
- air transport system
- alarm system
- all-air system
- all outside air system
- all-water coil system
- all water fan coil system
- approach lighting system
- arterial system
- Atterberg soil classification system
- audio alarm system
- automated casting system
- automatic fire alarm system
- automatic fire protection system
- automatic flushing system
- balanced system
- balanced system of streets
- balanced ventilation system
- bar system
- beam structural system
- bell alarm system
- Benoto piling system
- bivalent heat pump system
- bleed-in system
- blow and exhaust system
- blow through air-conditioning system
- blow through fan system
- bootstrap system
- box system
- bridge deck structured system
- British soil classification system
- building system
- building automation system
- building-drainage system
- building gravity drainage system
- building management system
- built-in dust suppression system
- burglar alarm system
- cable system
- central air heating system
- central fan system
- centralized hot-water supply system
- central plant air conditioning system
- changeover system
- circulating system
- circulation water supply system
- circulation water system
- closed system
- closed heat-supply system
- closed-loop heat pump system
- closed-type steam heating system
- coding system
- cogeneration system
- cold supply system
- collapsing-ring bridge rail system
- combined drainage system
- combined sewage system
- complanar system of structural members
- complanar force system
- complete-mix activated sludge system
- composite frame system
- compression system
- concrete suspended flooring system
- constant volume system
- continuous conveying system
- continuous suspension system
- control system
- cooling system
- coordinate system
- cost-efficient floor system
- crossbar approach lighting system
- cross blow ventilation system
- curtain walling system
- custom forming system
- decentralized air conditioning system
- decentralized sewerage system
- deluge sprinkler system
- desiccant cooling system
- designation system
- design-built system
- diffusion-absorption system
- digital indicating system
- direct system
- direct air heating system
- direct cooling system
- direct expansion system
- direct hot water system
- direct hot-water supply system
- direct return system
- direct through air-conditioning system
- distribution system
- domestic hot water system
- domestic sewerage system
- "Dot" recording system
- double-pipe system
- double stack system
- down-feed system
- drainage system
- draw-in system
- draw-through fan system
- draw-through system
- drencher system
- drop system
- dry-pipe sprinkler system
- dual conduit system
- duct system
- ductless split air conditioning system
- dust collecting system
- dust extract system
- early warning system
- economical floor system
- ejector refrigerating system
- elastic mechanical system
- elastic system
- electric heating system
- electric reheat system
- energy management system
- environmental system
- exhaust system
- extract system
- FAA soil classification system
- fan coil system
- Federal aviation administration soil classification system
- fire alarm system
- fire-extinguishing system
- fire protection system
- flat plate-pipe column floor system
- floor structural system
- floor system
- flow-through system
- F-number system
- force system
- forming-and-reinforcing system
- Forton system
- four pipe system
- gantry crane system
- gas heating system
- gravity system
- gravity-flow heating system
- gravity sewerage system
- gravity steam heating system
- gravity water-supply system
- grid coordinate system
- gridiron distribution system
- grounding system
- groundwater control system
- group water supply system
- gyratory system
- heat distribution system
- heating system
- heat-of-light system
- heat pump system
- heat recovery system
- heat supply system
- heat-traced system
- high-intensity lighting system
- high temperature hot-water heating system
- high velocity system
- hold-over system
- holonomic system
- hot-air system
- hot water system
- hot-water circulation system
- hush piling system
- hybrid system
- hydraulic control system
- hydrophilic system
- hydrophobic system
- indirect expansion system
- indirect hot-water supply system
- indirect refrigeration system
- individual sewage-disposal system
- induction air conditioning system
- induction system
- industrialized building systems
- inflation system
- instrument landing system
- integral deck system
- integrated distribution floor system
- inverter driven VRV system
- Jackson system
- land system
- large panel system
- lighting system
- line system
- liquid overfeed system
- local sewerage system
- low-pressure system
- low pressure hot water system
- low velocity system
- main system
- maintenance management system
- mass transit system
- materials-handling system
- mechanical system
- mechanical refrigerating system
- mechanical supply system
- medium pressure hot water system
- medium temperature hot water system
- microbore heating system
- modular system
- modular air conditioning system
- modular compression sealing system
- modular decking system
- modular precast building system
- multiple-degree system
- multiple web system
- multiple well system
- multistage gas-supply system
- multizone system
- municipal piping system
- nail-free formwork system
- non-changeover system
- octopus duct system
- oil fired heating system
- once-through water-supply system
- one-degree system
- one-duct air-conditioning system
- one-pipe system
- one-pipe loop system
- one-way system
- open system
- open expansion tank system
- open-loop control system
- open return system
- open steam heating system
- operation system
- overhead heating system
- overhead runway system
- packaged cogeneration system
- panel air-conditioning system
- panel air system
- panel-lock system
- partially-separate system
- piping system
- plane system of forces
- plane grid system
- plenum system
- plumbing system
- pneumatic conveying system
- post-tensioning system
- preaction sprinkler system
- prefabricated pipe conduit system
- pressurization system
- pressurized heating system
- pressurized hot water system
- primary-secondary system
- principal system
- public system
- public waterwork system
- push-through fan system
- push-through system
- quality system
- rail mounted track laying system
- raised floor system
- rapid transport system
- recool system
- recycling system
- recycling water system
- redundant bridge system
- refrigerating system
- regenerative air cycle system
- regional settlement system
- reheat system
- return system
- return air system
- reverse return system
- reverse return upfeed system
- rising heating system
- road system
- roofing system
- run-around system
- safety system
- scraper system
- sealed heating system
- security system
- self-climbing form system
- separate sewerage system
- separate system
- series loop system
- sewage system
- shunt system
- single-degree-of-freedom system
- single-degree system
- single duct air conditioning system
- single-pipe heating system
- single-pipe heat-supply system
- single-stack plumbing system
- single-storey heating system
- single web system
- single-zone air-conditioning system
- slab-stringer system
- small bore heating system
- smoke control system
- smoke extract ventilation system
- soil system
- soil absorption system
- solar heating system
- solid fuel heating system
- split system
- sprinkler system
- state plane coordinate system
- statically determinate system
- statically indeterminate system
- stationary system of loads
- steam heating system
- steel plate system
- storm sewer system
- structural system
- structural monitoring system
- sub-atmospheric heating system
- subbuilding drainage system
- subsurface drainage system
- subsurface sewage disposal system
- supply air system
- supporting formwork system
- suspension structural system
- swing joint system
- taxiway system
- telpher system
- terminal reheat system
- thermal storage heating system
- thermosiphon system
- three-pipe system
- three-pipe air-conditioning system
- three-pipe heat supply system
- total energy system
- track laying system
- trench shoring system
- trussed system
- truss-supported deck system
- tube cleaning system
- two-degree-of-freedom system
- two-degree system
- two-pipe system
- two value system of proportional balancing
- two value system
- two-way system
- underfloor conduit system
- unvented system
- up-feed heating system
- utility detection system
- vacuum heating system
- vacuum return system
- vacuum waste disposal system
- variable air volume system
- variable refrigerant volume system
- variable volume system
- variable water volume system
- VAV system
- vented system
- ventilation system
- VRV system
- VWV system
- warning system
- water-air heating system
- water booster system
- water-supply system
- water-to-air system
- water-to-water system
- wellpoint system
- wet return system
- wind framing system
- wire cable control system
- wiring system
- zoned system
- zone reheat system -
14 Sopwith, Sir Thomas (Tommy) Octave Murdoch
SUBJECT AREA: Aerospace[br]b. 18 January 1888 London, Englandd. 27 January 1989 Stockbridge, Hampshire, England[br]English aeronautical engineer and industrialist.[br]Son of a successful mining engineer, Sopwith did not shine at school and, having been turned down by the Royal Navy as a result, attended an engineering college. His first interest was motor cars and, while still in his teens, he set up a business in London with a friend in order to sell them; he also took part in races and rallies.Sopwith's interest in aviation came initially through ballooning, and in 1906 he purchased his own balloon. Four years later, inspired by the recent flights across the Channel to France and after a joy-ride at Brooklands, he bought an Avis monoplane, followed by a larger biplane, and taught himself to fly. He was awarded the Royal Aero Society's Aviator Certificate No. 31 on 21 November 1910, and he quickly distinguished himself in flying competitions on both sides of the Atlantic and started his own flying school. In his races he was ably supported by his friend Fred Sigrist, a former motor engineer. Among the people Sopwith taught to fly were an Australian, Harry Hawker, and Major Hugh Trenchard, who later became the "father" of the RAF.In 1912, depressed by the poor quality of the aircraft on trial for the British Army, Sopwith, in conjunction with Hawker and Sigrist, bought a skating rink in Kingston-upon-Thames and, assisted by Fred Sigrist, started to design and build his first aircraft, the Sopwith Hybrid. He sold this to the Royal Navy in 1913, and the following year his aviation manufacturing company became the Sopwith Aviation Company Ltd. That year a seaplane version of his Sopwith Tabloid won the Schneider Trophy in the second running of this speed competition. During 1914–18, Sopwith concentrated on producing fighters (or "scouts" as they were then called), with the Pup, the Camel, the 1½ Strutter, the Snipe and the Sopwith Triplane proving among the best in the war. He also pioneered several ideas to make flying easier for the pilot, and in 1915 he patented his adjustable tailplane and his 1 ½ Strutter was the first aircraft to be fitted with air brakes. During the four years of the First World War, Sopwith Aviation designed thirty-two different aircraft types and produced over 16,000 aircraft.The end of the First World War brought recession to the aircraft industry and in 1920 Sopwith, like many others, put his company into receivership; none the less, he immediately launched a new, smaller company with Hawker, Sigrist and V.W.Eyre, which they called the H.G. Hawker Engineering Company Ltd to avoid any confusion with the former company. He began by producing cars and motor cycles under licence, but was determined to resume aircraft production. He suffered an early blow with the death of Hawker in an air crash in 1921, but soon began supplying aircraft to the Royal Air Force again. In this he was much helped by taking on a new designer, Sydney Camm, in 1923, and during the next decade they produced a number of military aircraft types, of which the Hart light bomber and the Fury fighter, the first to exceed 200 mph (322 km/h), were the best known. In the mid-1930s Sopwith began to build a large aviation empire, acquiring first the Gloster Aircraft Company and then, in quick succession, Armstrong-Whitworth, Armstrong-Siddeley Motors Ltd and its aero-engine counterpart, and A.V.Roe, which produced Avro aircraft. Under the umbrella of the Hawker Siddeley Aircraft Company (set up in 1935) these companies produced a series of outstanding aircraft, ranging from the Hawker Hurricane, through the Avro Lancaster to the Gloster Meteor, Britain's first in-service jet aircraft, and the Hawker Typhoon, Tempest and Hunter. When Sopwith retired as Chairman of the Hawker Siddeley Group in 1963 at the age of 75, a prototype jump-jet (the P-1127) was being tested, later to become the Harrier, a for cry from the fragile biplanes of 1910.Sopwith also had a passion for yachting and came close to wresting the America's Cup from the USA in 1934 when sailing his yacht Endeavour, which incorporated a number of features years ahead of their time; his greatest regret was that he failed in his attempts to win this famous yachting trophy for Britain. After his retirement as Chairman of the Hawker Siddeley Group, he remained on the Board until 1978. The British aviation industry had been nationalized in April 1977, and Hawker Siddeley's aircraft interests merged with the British Aircraft Corporation to become British Aerospace (BAe). Nevertheless, by then the Group had built up a wide range of companies in the field of mechanical and electrical engineering, and its board conferred on Sopwith the title Founder and Life President.[br]Principal Honours and DistinctionsKnighted 1953. CBE 1918.Bibliography1961, "My first ten years in aviation", Journal of the Royal Aeronautical Society (April) (a very informative and amusing paper).Further ReadingA.Bramson, 1990, Pure Luck: The Authorized Biography of Sir Thomas Sopwith, 1888– 1989, Wellingborough: Patrick Stephens.B.Robertson, 1970, Sopwith. The Man and His Aircraft, London (a detailed publication giving plans of all the Sopwith aircraft).CM / JDSBiographical history of technology > Sopwith, Sir Thomas (Tommy) Octave Murdoch
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15 Goldmark, Peter Carl
[br]b. 2 December 1906 Budapest, Hungaryd. 7 December 1977 Westchester Co., New York, USA[br]Austro-Hungarian engineer who developed the first commercial colour television system and the long-playing record.[br]After education in Hungary and a period as an assistant at the Technische Hochschule, Berlin, Goldmark moved to England, where he joined Pye of Cambridge and worked on an experimental thirty-line television system using a cathode ray tube (CRT) for the display. In 1936 he moved to the USA to work at Columbia Broadcasting Laboratories. There, with monochrome television based on the CRT virtually a practical proposition, he devoted his efforts to finding a way of producing colour TV images: in 1940 he gave his first demonstration of a working system. There then followed a series of experimental field-sequential colour TV systems based on segmented red, green and blue colour wheels and drums, where the problem was to find an acceptable compromise between bandwidth, resolution, colour flicker and colour-image breakup. Eventually he arrived at a system using a colour wheel in combination with a CRT containing a panchromatic phosphor screen, with a scanned raster of 405 lines and a primary colour rate of 144 fields per second. Despite the fact that the receivers were bulky, gave relatively poor, dim pictures and used standards totally incompatible with the existing 525-line, sixty fields per second interlaced monochrome (black and white) system, in 1950 the Federal Communications Commission (FCC), anxious to encourage postwar revival of the industry, authorized the system for public broadcasting. Within eighteen months, however, bowing to pressure from the remainder of the industry, which had formed its own National Television Systems Committee (NTSC) to develop a much more satisfactory, fully compatible system based on the RCA three-gun shadowmask CRT, the FCC withdrew its approval.While all this was going on, Goldmark had also been working on ideas for overcoming the poor reproduction, noise quality, short playing-time (about four minutes) and limited robustness and life of the long-established 78 rpm 12 in. (30 cm) diameter shellac gramophone record. The recent availability of a new, more robust, plastic material, vinyl, which had a lower surface noise, enabled him in 1948 to reduce the groove width some three times to 0.003 in. (0.0762 mm), use a more lightly loaded synthetic sapphire stylus and crystal transducer with improved performance, and reduce the turntable speed to 33 1/3 rpm, to give thirty minutes of high-quality music per side. This successful development soon led to the availability of stereophonic recordings, based on the ideas of Alan Blumlein at EMI in the 1930s.In 1950 Goldmark became a vice-president of CBS, but he still found time to develop a scan conversion system for relaying television pictures to Earth from the Lunar Orbiter spacecraft. He also almost brought to the market a domestic electronic video recorder (EVR) system based on the thermal distortion of plastic film by separate luminance and coded colour signals, but this was overtaken by the video cassette recorder (VCR) system, which uses magnetic tape.[br]Principal Honours and DistinctionsInstitute of Electrical and Electronics Engineers Morris N.Liebmann Award 1945. Institute of Electrical and Electronics Engineers Vladimir K. Zworykin Award 1961.Bibliography1951, with J.W.Christensen and J.J.Reeves, "Colour television. USA Standard", Proceedings of the Institute of Radio Engineers 39: 1,288 (describes the development and standards for the short-lived field-sequential colour TV standard).1949, with R.Snepvangers and W.S.Bachman, "The Columbia long-playing microgroove recording system", Proceedings of the Institute of Radio Engineers 37:923 (outlines the invention of the long-playing record).Further ReadingE.W.Herold, 1976, "A history of colour television displays", Proceedings of the Institute of Electrical and Electronics Engineers 64:1,331.See also: Baird, John LogieKF -
16 director
начальник (управления, службы, отдела) ; руководитель; директор; ( центральный) прибор управления огнем; прибор управления артиллерийским зенитным огнем, ПУАЗО; целеуказатель; оператор наведения; пункт [самолет, корабль] наведения; ретранслятор; буссольAssistant director, Review and Analysis — помощник начальника управления по проверке и анализу (контрактов) (МО)
Deputy CIA director, Essential Elements of Information — заместитель директора ЦРУ по постановке основных задач сбора разведывательной информации
Deputy director of Defense Research and Engineering for Administration, Evaluation and Management — заместитель начальника управления НИОКР МО по административным вопросам, вопросам оценки и управления
Deputy director, Contract Administration Services — заместитель начальника службы по контролю за исполнением контрактов (МО)
Deputy director, Strategic and Naval Warfare Systems — заместитель начальника управления по стратегическим и морским системам оружия (МО)
Deputy director, Tactical Air and Land Warfare Systems — заместитель начальника управления по тактическим авиационным и наземным системам оружия (МО)
Deputy director, Test Facilities and Resources — заместитель начальника управления по испытательному оборудованию и ресурсам (МО)
director EW and C3 Countermeasures — начальник управления РЭБ и мер противодействия системам руководства, управления и связи (МО)
director for C3 Policy — начальник управления разработки программ руководства, управления и связи (МО)
director for Operations, Joint Staff — начальник оперативного управления объединенного штаба (КНШ)
director for Plans and Policy, Joint Staff — начальник управления планирования и строительства ВС объединенного штаба;
director of Administrative Services, Joint Staff — начальник административного управления объединенного штаба
director of Civilian Marksmanship, National Board for the Promotion of Rifle Practice — начальник управления стрелковой подготовки гражданского персонала Национального комитета содействия развитию стрелкового спорта (СВ)
director of Manning (Army) — Бр. начальник управления комплектования (СВ)
director of Research, Development, Test and Evaluation — начальник управления НИОКР, испытаний и оценок
director, Acquisition and Support Planning — начальник управления закупок (военной техники) и планирования МТО (МО)
director, Administrative Support Group — начальник группы административного обеспечения (СВ)
director, Admiralty Marine Technology Establishment — Бр. начальник управления разработки боевой техники МП
director, Admiralty Surface Weapons Establishment — Бр. начальник управления разработки систем надводного оружия ВМС
director, African Region — начальник управления стран Африки (МО)
director, Air National Guard — директор штаба НГ ВВС
director, Air Vehicles Technology — начальник управления разработки авиационных транспортных систем (МО)
director, Air Warfare — начальник управления авиационных систем оружия (МО)
director, Army Air Corps — Бр. начальник управления армейской авиации СВ
director, Army Aviation — начальник управления армейской авиации
director, Army Council of Review Boards — председатель совета СВ по контролю за деятельностью апелляционных комиссий
director, Army Medical Services — Бр. начальник медицинской службы СВ
director, Army National Guard — директор штаба НГ СВ
director, Army Programs — начальник управления разработки программ СВ
director, C3 Resources — начальник управления разработки систем руководства, управления и связи (МО)
director, Chemical Defence Establishment — Бр. директор НИЦ средств химической защиты
director, Civil Affairs — начальник управления по связям с гражданской администрацией и населением
director, Civilian Employees Security Program — начальник службы контрразведывательной проверки гражданского персонала (СВ)
director, Combat Support — начальник управления боевого обеспечения (МО)
director, Communications Systems — начальник управления систем связи (МО)
director, Contracts and Systems Acquisition — начальник управления заключения контрактов и закупок систем оружия и военной техники (МО)
director, Coordination and Analysis — начальник управления координации и анализа
director, Counterintelligence and Investigative Programs — начальник управления программ контрразведки и специальных расследований (МО)
director, Cruise Missile Systems — начальник управления систем КР (МО)
director, Defence Operational Analysis Establishment — Бр. начальник военнонаучного управления МО
director, Defense Research and Engineering — начальник управления НИОКР МО
director, Defense Sciences — начальник научно-исследовательского управления МО
director, Defense Supply Service-Washington — начальник службы снабжения зоны Вашингтона в МО
director, Defense Telephone Service-Washington — начальник телефонной службы зоны Вашингтона в МО
director, Defense Test and Evaluation — начальник управления МО по испытанию и оценке (оружия и военной техники)
director, DIA — начальник разведывательного управления МО
director, Directed Energy Programs — начальник управления программ использования направленной энергии (МО)
director, Doctrine, Organization and Training — начальник управления разработки доктрин, вопросов организации и боевой подготовки
director, DOD SALT Task Force — председатель рабочей группы МО по вопросам переговоров в рамках ОС В
director, East Asia and Pacific Region — начальник управления стран Восточной Азии и Тихого океана (МО)
director, Electronics and Physical Sciences — начальник управления по электронике и естественным наукам (МО)
director, Engineering Technology — начальник управления проектно-конструкторских работ (МО)
director, Environmental and Life Sciences — начальник управления экологических и биологических наук (МО)
director, Equipment Applications — начальник управления по изучению применения техники (в войсках)
director, Facilities Engineering — начальник инженерно-строительного управления
director, Far East/Middle East/Southern Hemisphere Affairs — начальник управления стран Дальнего Востока, Среднего Востока и Южного полушария (МО)
director, Federal Bureau of Investigation — директор ФБР
director, Field Maintenance — начальник службы полевого технического обслуживания и ремонта
director, Foreign Military Rights Affairs — начальник управления по делам прав иностранных государств в военной области (МО)
director, General Purpose Forces Policy — начальник управления разработки вопросов строительства сил общего назначения
director, Health Resources — начальник управления ресурсов здравоохранения
director, Information Processing Technique — начальник управления систем обработки информации (МО)
director, Information Security — начальник управления обеспечения секретности информации (МО)
director, Information Systems — начальник управления АИС
director, Installations — начальник управления строительства
director, Intelligence Resources — начальник управления изучения ресурсов разведки (МО)
director, Inter-American Region — начальник управления по межамериканским делам
director, International Economic Affairs — начальник управления по международным экономическим делам (МО)
director, International Military Staff — начальник международного объединенного штаба (НАТО)
director, Joint Staff — начальник секретариата объединенного штаба (КНШ)
director, Joint Tactical Communications (TRI-TAC) Program — начальник отдела работ по программе использования единой тактической системы связи (ТРИ-ТАК)
director, Judge Advocate Division — начальник отдела военно-юридической службы (МП)
director, Land Warfare — начальник управления наземных систем оружия (МО)
director, Legislative Liaison — начальник отдела по связям с законодательными органами (ВВС)
director, Legislative Reference Service — начальник справочной юридической службы (МО)
director, Major Weapon Systems Acquisition — начальник управления закупок основных систем оружия (МО)
director, Marine Corps Reserve — начальник отдела по вопросам резерва МП
director, Materiel Acquisition Policy — начальник управления разработки планов закупок оружия и военной техники (МО)
director, Materiel Requirements — начальник отдела определения потребностей в оружии и военной технике
director, Medical Plans and Resources — начальник управления ресурсов и планов медицинского обеспечения (ВВС)
director, Military Assistance Office — Бр. начальник управления по оказанию военной помощи иностранным государствам (СВ)
director, Military Survey — Бр. начальник топографического управления (СВ)
director, Military Technology — начальник управления военной технологии (МО)
director, Military Vehicles and Engineering Establishment — Бр. начальник управления БМ и инженерной техники
director, National Intelligence Systems — начальник управления национальных систем разведки (МО)
director, NATO/European Affairs — начальник управления по делам НАТО и стран Европы (МО)
director, Naval Laboratories — начальник управления научно-исследовательских лабораторий ВМС
director, Near Eastern and South Asian Region — начальник управления стран Ближнего Востока и Южной Азии (МО)
director, Negotiations Policy — начальник управления разработки планов ведения переговоров (МО)
director, Net Assessment — начальник управления всесторонней оценки программ (МО)
director, NSA — директор АНБ
director, Offensive and Space Systems — начальник управления космических средств и систем наступательного оружия (МО)
director, Office of Congressional Travel/Security Clearances — начальник отдела организации поездок членов Конгресса и оформления допуска к секретным материалам (МО)
director, Office of Dependents Schools — начальник отдела по вопросам воспитания и образования детей военнослужащих (МО)
director, Office of Research and Administration — начальник управления НИР и административного обеспечения (МО)
director, Operations — начальник оперативного управления [отдела]
director, Personnel and Employment Service-Washington — начальник отдела кадров для гражданских служащих зоны Вашингтона (СВ)
director, Personnel Council — председатель совета по делам ЛС (ВВС)
director, Personnel Plans — начальник управления планирования подготовки ЛС (ВВС)
director, Personnel Programs — начальник управления разработки программ использования ЛС (ВВС)
director, Planning and Health Policy Analysis — начальник управления планирования и развития здравоохранения (МО)
director, Planning and Requirements Review — начальник управления планирования и анализа потребностей (МО)
director, Planning — начальник управления планирования (МО)
director, Plans and Programs — начальник управления разработки планов и программ
director, Policy Research — начальник управления политических исследований (МО)
director, Program Control and Administration — начальник управления по административным вопросам и контролю за выполнением программ
director, Program Management — начальник управления по руководству разработкой программ (МО)
director, R&D and Procurement — начальник отдела НИОКР и заготовок
director, Religious Education — руководитель отделения [секции] религиозного образования (СВ)
director, Resource Management Office — начальник отдела управления ресурсами (СВ)
director, Royal Aircraft Establishment — Бр. директор НИЦ авиационной техники
director, Royal Armament R&D Establishment — Бр. директор НИЦ вооружений
director, Royal Armored Corps — Бр. начальник бронетанковых войск
director, Royal Artillery — Бр. начальник артиллерийского управления
director, Royal Signals and Radar Establishments — Бр. директор НИЦ средств связи и РЛ техники
director, SALT/Arms Control Support Group — начальник группы обеспечения переговоров в рамках ОСВ по контролю над вооружениями
director, Security Assistance Plans and Programs — начальник управления разработки планов и программ военной помощи иностранным государствам
director, Security Plans and Programs — начальник управления разработки планов и программ обеспечения безопасности (МО)
director, Space Activities Office — начальник управления космических программ (МО)
director, Space and Building Management Service-Washington — начальник службы эксплуатации объектов зоны Вашингтона (СВ)
director, Space Systems — начальник управления космических систем (ВВС)
director, Special Projects — начальник управления специальных проектов (МО)
director, Special Studies — начальник управления специальных НИР
director, Special Weapons — начальник управления специальных видов оружия
director, Strategic and Theater C2 Systems — начальник управления разработки систем руководства и управления ВС в стратегическом масштабе и на ТВД
director, Strategic Forces Policy — начальник управления разработки вопросов развития стратегических сил
director, Strategic Planning — начальник отдела стратегического планирования
director, Strategic Plans — начальник отдела стратегического планирования
director, Strategic Policy — начальник управления разработки стратегических проблем (МО)
director, Strategic Technology — начальник управления разработки стратегических систем оружия (МО)
director, Studies and Analyses Staff — начальник отдела исследований и анализа (СВ)
director, Surveillance and Warning — начальник управления систем наблюдения и оповещения (МО)
director, Tactical Intelligence Systems — начальник управления тактических систем разведки (МО)
director, Tactical Technology — начальник управления разработки тактических систем оружия (МО)
director, Technology and Arms Transfer Policy — начальник управления разработки основ передачи военной технологии и вооружений
director, Technology Trade — начальник управления по торговым операциям в области технологии
director, Territorial Army and Cadets — Бр. начальник управления территориальной армии и кадетских организаций
director, Theater Nuclear Force Policy — начальник управления разработки программ развития ядерных сил на ТВД
director, Underwater Weapons Projects — Бр. начальник отдела разработки проектов подводного оружия
director, USAF Judiciary — начальник отдела судопроизводства ВВС США
director, Washington Headquarters Services — начальник административноштабной службы зоны Вашингтона
director, Weapons (Production) — Бр. начальник управления по производству систем оружия
director, Women's RAF — Бр. начальник женской вспомогательной службы ВВС
director, Women's Royal Naval Service — Бр. начальник женской вспомогательной службы ВМС
Executive director, Industrial Security — начальник управления обеспечения сохранения военной тайны на промышленных предприятиях (МО)
Executive director, Quality Assurance — начальник управления обеспечения качества (продукции МО)
Executive director, Technical and Logistics Services — начальник управления служб МТО (МО)
Managing director, Royal Ordnance Factories — Бр. начальник управления военных заводов
Principal director Office of the Deputy Under-Secretary, Policy Planning — начальник управления [первый помощник заместителя МО] по планированию военно-политических программ
Staff director, Installation Services and Environmental Protection — начальник управления обслуживания объектов и защиты окружающей среды (МО)
Staff director, Management Review — начальник управления анализа организационных проблем (МО)
Staff director, Small and Disadvantaged Business Utilization — начальник управления по связям с мелкими и льготными предприятиями (МО)
Vice director, Management and Operations Defense Intelligence Agency — первый заместитель начальника разведывательного управления МО по вопросам руководства операциями
— fire control director -
17 Bollée, Ernest-Sylvain
[br]b. 19 July 1814 Clefmont (Haute-Marne), Franced. 11 September 1891 Le Mans, France[br]French inventor of the rotor-stator wind engine and founder of the Bollée manufacturing industry.[br]Ernest-Sylvain Bollée was the founder of an extensive dynasty of bellfounders based in Le Mans and in Orléans. He and his three sons, Amédée (1844–1917), Ernest-Sylvain fils (1846–1917) and Auguste (1847-?), were involved in work and patents on steam-and petrol-driven cars, on wind engines and on hydraulic rams. The presence of the Bollées' car industry in Le Mans was a factor in the establishment of the car races that are held there.In 1868 Ernest-Sylvain Bollée père took out a patent for a wind engine, which at that time was well established in America and in England. In both these countries, variable-shuttered as well as fixed-blade wind engines were in production and patented, but the Ernest-Sylvain Bollée patent was for a type of wind engine that had not been seen before and is more akin to the water-driven turbine of the Jonval type, with its basic principle being parallel to the "rotor" and "stator". The wind drives through a fixed ring of blades on to a rotating ring that has a slightly greater number of blades. The blades of the fixed ring are curved in the opposite direction to those on the rotating blades and thus the air is directed onto the latter, causing it to rotate at a considerable speed: this is the "rotor". For greater efficiency a cuff of sheet iron can be attached to the "stator", giving a tunnel effect and driving more air at the "rotor". The head of this wind engine is turned to the wind by means of a wind-driven vane mounted in front of the blades. The wind vane adjusts the wind angle to enable the wind engine to run at a constant speed.The fact that this wind engine was invented by the owner of a brass foundry, with all the gear trains between the wind vane and the head of the tower being of the highest-quality brass and, therefore, small in scale, lay behind its success. Also, it was of prefabricated construction, so that fixed lengths of cast-iron pillar were delivered, complete with twelve treads of cast-iron staircase fixed to the outside and wrought-iron stays. The drive from the wind engine was taken down the inside of the pillar to pumps at ground level.Whilst the wind engines were being built for wealthy owners or communes, the work of the foundry continued. The three sons joined the family firm as partners and produced several steam-driven vehicles. These vehicles were the work of Amédée père and were l'Obéissante (1873); the Autobus (1880–3), of which some were built in Berlin under licence; the tram Bollée-Dalifol (1876); and the private car La Mancelle (1878). Another important line, in parallel with the pumping mechanism required for the wind engines, was the development of hydraulic rams, following the Montgolfier patent. In accordance with French practice, the firm was split three ways when Ernest-Sylvain Bollée père died. Amédée père inherited the car side of the business, but it is due to Amédée fils (1867– 1926) that the principal developments in car manufacture came into being. He developed the petrol-driven car after the impetus given by his grandfather, his father and his uncle Ernest-Sylvain fils. In 1887 he designed a four-stroke single-cylinder engine, although he also used engines designed by others such as Peugeot. He produced two luxurious saloon cars before putting Torpilleur on the road in 1898; this car competed in the Tour de France in 1899. Whilst designing other cars, Amédée's son Léon (1870–1913) developed the Voiturette, in 1896, and then began general manufacture of small cars on factory lines. The firm ceased work after a merger with the English firm of Morris in 1926. Auguste inherited the Eolienne or wind-engine side of the business; however, attracted to the artistic life, he sold out to Ernest Lebert in 1898 and settled in the Paris of the Impressionists. Lebert developed the wind-engine business and retained the basic "stator-rotor" form with a conventional lattice tower. He remained in Le Mans, carrying on the business of the manufacture of wind engines, pumps and hydraulic machinery, describing himself as a "Civil Engineer".The hydraulic-ram business fell to Ernest-Sylvain fils and continued to thrive from a solid base of design and production. The foundry in Le Mans is still there but, more importantly, the bell foundry of Dominique Bollée in Saint-Jean-de-Braye in Orléans is still at work casting bells in the old way.[br]Further ReadingAndré Gaucheron and J.Kenneth Major, 1985, The Eolienne Bollée, The International Molinological Society.Cénomane (Le Mans), 11, 12 and 13 (1983 and 1984).KM -
18 Napier, Robert
SUBJECT AREA: Ports and shipping[br]b. 18 June 1791 Dumbarton, Scotlandd. 23 June 1876 Shandon, Dunbartonshire, Scotland[br]Scottish shipbuilder one of the greatest shipbuilders of all time, known as the "father" of Clyde shipbuilding.[br]Educated at Dumbarton Grammar School, Robert Napier had been destined for the Church but persuaded his father to let him serve an apprenticeship as a blacksmith under him. For a while he worked in Edinburgh, but then in 1815 he commenced business in Glasgow, the city that he served for the rest of his life. Initially his workshop was in Camlachie, but it was moved in 1836 to a riverside factory site at Lancefield in the heart of the City and again in 1841 to the Old Shipyard in the Burgh of Govan (then independent of the City of Glasgow). The business expanded through his preparedness to build steam machinery, beginning in 1823 with the engines for the paddle steamer Leven, still to be seen a few hundred metres from Napier's grave in Dumbarton. His name assured owners of quality, and business expanded after two key orders: one in 1836 for the Honourable East India Company; and the second two years later for the Royal Navy, hitherto the preserve of the Royal Dockyards and of the shipbuilders of south-east England. Napier's shipyard and engine shops, then known as Robert Napier and Sons, were to be awarded sixty Admiralty contracts in his lifetime, with a profound influence on ship and engine procurement for the Navy and on foreign governments, which for the first time placed substantial work in the United Kingdom.Having had problems with hull subcontractors and also with the installation of machinery in wooden hulls, in 1843 Napier ventured into shipbuilding with the paddle steamer Vanguard, which was built of iron. The following year the Royal Navy took delivery of the iron-hulled Jackall, enabling Napier to secure the contract for the Black Prince, Britain's second ironclad and sister ship to HMS Warrior now preserved at Portsmouth. With so much work in iron Napier instigated studies into metallurgy, and the published work of David Kirkaldy bears witness to his open-handedness in assisting the industry. This service to industry was even more apparent in 1866 when the company laid out the Skelmorlie Measured Mile on the Firth of Clyde for ship testing, a mile still in use by ships of all nations.The greatest legacy of Robert Napier was his training of young engineers, shipbuilders and naval architects. Almost every major Scottish shipyard, and some English too, was influenced by him and many of his early foremen left to set up rival establishments along the banks of the River Clyde. His close association with Samuel Cunard led to the setting up of the company now known as the Cunard Line. Napier designed and engined the first four ships, subcontracting the hulls of this historic quartet to other shipbuilders on the river. While he contributed only 2 per cent to the equity of the shipping line, they came back to him for many more vessels, including the magnificent paddle ship Persia, of 1855.It is an old tradition on the Clyde that the smokestacks of ships are made by the enginebuilders. The Cunard Line still uses red funnels with black bands, Napier's trademark, in honour of the engineer who set them going.[br]Principal Honours and DistinctionsKnight Commander of the Dannebrog (Denmark). President, Institution of Mechanical Engineers 1864. Honorary Member of the Glasgow Society of Engineers 1869.Further ReadingJames Napier, 1904, The Life of Robert Napier, Edinburgh, Blackwood.J.M.Halliday, 1980–1, "Robert Napier. The father of Clyde shipbuilding", Transactions of the Institution of Engineers and Shipbuilders in Scotland 124.Fred M.Walker, 1984, Song of the Clyde. A History of Clyde Shipbuilding, Cambridge: PSL.FMW -
19 Nervi, Pier Luigi
[br]b. 21 June 1891 Sondrio, Italyd. 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 DistinctionsRIBA 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.Bibliography1956, Structures, New York: Dodge.1945, Scienza o Arte del Costruire?, Rome: Bussola.Further ReadingP.Desideri et al., 1979, Pier Luigi Nervi, Bologna: Zanichelli.A.L.Huxtable, 1960, Masters of World Architecture; Pier Luigi Nervi, New York: Braziller.DY -
20 Rosenhain, Walter
SUBJECT AREA: Metallurgy[br]b. 24 August 1875 Berlin, Germanyd. 17 March 1934 Kingston Hill, Surrey, England[br]German metallurgist, first Superintendent of the Department of Metallurgy and Metallurgical Chemistry at the National Physical Laboratory, Teddington, Middlesex.[br]His family emigrated to Australia when he was 5 years old. He was educated at Wesley College, Melbourne, and attended Queen's College, University of Melbourne, graduating in physics and engineering in 1897. As an 1851 Exhibitioner he then spent three years at St John's College, Cambridge, under Sir Alfred Ewing, where he studied the microstructure of deformed metal crystals and abandoned his original intention of becoming a civil engineer. Rosenhain was the first to observe the slip-bands in metal crystals, and in the Bakerian Lecture delivered jointly by Ewing and Rosenhain to the Royal Society in 1899 it was shown that metals deformed plastically by a mechanism involving shear slip along individual crystal planes. From this conception modern ideas on the plasticity and recrystallization of metals rapidly developed. On leaving Cambridge, Rosenhain joined the Birmingham firm of Chance Brothers, where he worked for six years on optical glass and lighthouse-lens systems. A book, Glass Manufacture, written in 1908, derives from this period, during which he continued his metallurgical researches in the evenings in his home laboratory and published several papers on his work.In 1906 Rosenhain was appointed Head of the Metallurgical Department of the National Physical Laboratory (NPL), and in 1908 he became the first Superintendent of the new Department of Metallurgy and Metallurgical Chemistry. Many of the techniques he introduced at Teddington were described in his Introduction to Physical Metallurgy, published in 1914. At the outbreak of the First World War, Rosenhain was asked to undertake work in his department on the manufacture of optical glass. This soon made it possible to manufacture optical glass of high quality on an industrial scale in Britain. Much valuable work on refractory materials stemmed from this venture. Rosenhain's early years at the NPL were, however, inseparably linked with his work on light alloys, which between 1912 and the end of the war involved virtually all of the metallurgical staff of the laboratory. The most important end product was the well-known "Y" Alloy (4% copper, 2% nickel and 1.5% magnesium) extensively used for the pistons and cylinder heads of aircraft engines. It was the prototype of the RR series of alloys jointly developed by Rolls Royce and High Duty Alloys. An improved zinc-based die-casting alloy devised by Rosenhain was also used during the war on a large scale for the production of shell fuses.After the First World War, much attention was devoted to beryllium, which because of its strength, lightness, and stiffness would, it was hoped, become the airframe material of the future. It remained, however, too brittle for practical use. Other investigations dealt with impurities in copper, gases in aluminium alloys, dental alloys, and the constitution of alloys. During this period, Rosenhain's laboratory became internationally known as a centre of excellence for the determination of accurate equilibrium diagrams.[br]Principal Honours and DistinctionsFRS 1913. President, Institute of Metals 1828–30. Iron and Steel Institute Bessemer Medal, Carnegie Medal.Bibliography1908, Glass Manufacture.1914, An Introduction to the Study of Physical Metallurgy, London: Constable. Rosenhain published over 100 research papers.Further ReadingJ.L.Haughton, 1934, "The work of Walter Rosenhain", Journal of the Institute of Metals 55(2):17–32.ASD
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