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41 general construction work
работы общестроительные
Работы по возведению сооружений, классифицируемые по обрабатываемому материалу и целевому назначению, напр., железобетонные, плотничные, отделочные, а также работы по озеленению и благоустройству
[Терминологический словарь по строительству на 12 языках (ВНИИИС Госстроя СССР)]Тематики
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Англо-русский словарь нормативно-технической терминологии > general construction work
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42 Lift slab construction
உயா¢த்து தட்டுக் கட்டுவேலை -
43 Mushroom construction
திட்டமில்லாக் கட்டுவேலை -
44 Stressed-skin construction
தகைத்த தோலமைப்பு -
45 industrial and civil construction
Строительство: промышленное и гражданское строительство (or engineering)Универсальный англо-русский словарь > industrial and civil construction
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46 Box frame construction
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47 гражданское строительство
Англо-русский словарь технических терминов > гражданское строительство
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48 строительство
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49 Land Subdivision
эк., стат., амер. производство земляных работ (по NAICS 2002: отраслевая группа, в которую включены организации, занимающиеся производством предстроительных земляных работ (напр., выемка грунта с целью прокладки инженерных коммуникаций), и иногда делением земли на лоты)See: -
50 work
1) работа; труд; действие; функционирование2) обработка3) обрабатываемая заготовка; обрабатываемая деталь; обрабатываемое изделие4) механизм5) конструкция6) мн. ч. завод; фабрика; мастерские; технические сооружения; строительные работы7) мн. ч. работающие части механизма, подвижные органы механизма8) работать; обрабатывать9) действовать, двигаться, поворачиваться ( о подвижных частях механизмов)10) коробиться•work performed with materials in a smaller quantity — работа, выполненная с недостаточным использованием материалов
work performed without the necessary diligence — работа, выполненная небрежно
work which is not in accordance with specifications — работа, не соответствующая техническим требованиям
work which is not in accordance with the requirements of the engineer — работа, не отвечающая требованиям инженера
to work down — 1) осаживать ( вниз); оседать 2) обрабатывать на меньший размер
to work in — вделывать, вмонтировать
to work into — углубляться во что-либо, уходить внутрь
to work off — 1) соскакивать, соскальзывать ( во время работы) 2) снимать (напр. стружку)
to work on — действовать на что-либо, оказывать влияние на что-либо
to work out — 1) разрабатывать (план, проект) 2) вырабатывать (что-либо) из чего-либо (напр. вытачивать, выстрагивать, выфрезеровывать) 3) выскакивать, выпадать во время работы
to work over — обрабатывать вторично, перерабатывать, подвергать переработке
to work upon — действовать на что-либо, оказывать влияние на что-либо
- work executed - work in process - work of acceleration - work of deformation - work of ideal cycle - work of resistance - work on arbour - works under way - access to works - actual progress of works - amendment of the date of completion of works - amount of the executed works - applied work - asphalt work - assessment of works - auxiliary work - bank work - bargain work - beat-cob work - betterment work - black and white work - bluff work - bonus work - bosh brick work - branch work - branched work - bright work - carpenter's work - cast steel work - cessation of works - chased work - check of works - checking of works - chequer work - chequered work - cindering work - civil works - civil and erection works - clay work - clearing work - commencement of works - completed works - completion of works - concrete work - diversion work - condensing works - construction works - consumed work - continuous execution of works - contract works - cost of works - cost of uncovering works - covered-up works - date of commencement of works - date of completion of works - day-to-day work - day wage work - dead work - defective works - delay in completion of works - delayed completion of works - demolition works - description of works - design and survey works - desilting works - diaper work of bricklaying - drainage work - dredge work - dressing works - drove work - earth works - effective work - embossed work - emergency works - engineering works - erecting works - erection works - examination of works - excavation works - execution of works - expected period of works - extension of the time for completion of works - external work - face work - fascine work - field works - finely finished work - finishing work - fitter's works - flat trellis work - float work - forming work - forthcoming works - frosted rustic work - gauge work - gauged work - geologic works - geological works - grading works - gunite work - heading work - health work - hot work - hydro-meteorologic works - hydro-meteorological works - inadequate progress of works - incomplete lattice work - indicated work - inlaid work - inspection of works - installation work - intake works - irrigation works - jack works - jobbing work - joggle work - ladder work - line work - link work - locksmith's work - machine work - main works - maintenance work - management of works - maritime works - metal work - milling work - motion work - multiple lattice work - nature of works - neat work - negative work - night work - no-load work - odd works - on the site works - order of execution of works - outlet work - outstanding works - overhead works - panel work - partially completed works - part of works - paternoster work - period of works - period of execution of works - permanent works - pilot-scale work - plane frame work - planer work - pneumatic work - port work - portion of works - pottery work - precision work - preliminary works - preparatory works - pressure cementing work - programme of works - progress of works - proper execution of works - prospecting works - public works - pump works - quantity of works - rag work - R and D work - random work - range work - reclamation work - recoverable-strain work - recuperated work - reflected work - reliability of works - relief work - remedial works - repair work - repairing work - required work - research work - resumption of works - retaining works - reticulated work - right of access to works - river training works - rustic work - safety of works - schedule of works - scope of work - shaper work - sheet metal work - shift work - smith and founder work - spillway works - starting work - step-by-step check of works - step-by-step checking of works - stick and rag work - stoppage of works - subcontract works - submarine work - substituted works - sufficiency of works - supervision for works - supervision for of works - survey work - survey and research works - suspension of works - taking over of works - task work - temporary work - test work - test-hole work - three-coat work - through-carved work - time for completion of works - timely completion of works - tool work - topiary work - topographic works - topographical works - track work - treatment works - trellis work - trench work - trestle work - turning work - uncompleted works - uncovering of works - upon completion of works - variations in works - variations of works - volume of works - wiring work - X-ray workto complete works (in the time stipulated in the contract) — завершать работы (в срок, оговорённый в контракте)
* * *1. работа2. изделие3. обработка4. возводимый объект (строительства) ( по подрядному договору); конструкция, сооружение5. работа, мощность6. pl сооружение, сооружения7. pl завод, фабрика, мастерскиеwork above ground — наземные работы ( в отличие от подземных и подводных); работы, производимые на поверхности земли
work below ground ( level) — подземные работы
work carried out on site — работы, выполненные на стройплощадке
work done in sections — работа, выполненная отдельными секциями [частями]
work in open excavations — работы в открытых выемках [горных выработках]
work in progress — (строительные) работы в стадии выполнения, выполняемые [производимые] (строительные) работы; объект в стадии строительства
work in water — работы, производимые в воде [под водой]
work near water — работы, производимые близ водоёмов или рек
- work of deformationwork on schedule — работы в процессе выполнения ( по графику); работы, предусмотренные планом [графиком]
- work of external forces
- work of internal forces
- above-ground works
- additional work
- agricultural works
- alteration work
- ashlar work
- auxiliary work
- avalanche baffle works
- axed work
- backfill work
- backing masonry work
- bag work
- bench work
- block work
- brewery works
- brick work
- broken-color work
- brush work
- building work
- building site works
- carcass work
- carpenter's work
- cement works
- chemical production works
- civil engineering work
- coast protection works
- cob work
- completed work
- complicated building work
- concrete work
- concrete block masonry work
- concrete masonry work
- constructional work
- construction work
- continuous shift work
- contract work
- coursed work
- crib work
- day work
- dead work
- defective work
- defence works
- deformation work
- demolition work
- development work
- diver's works
- diversion works
- donkey work
- drainage works
- earth work
- earth-moving work
- elastic work of a material
- electric work
- electricity production works
- emergency work
- enclosed construction works
- engineering works
- erection work
- erosion protection works
- excavation works
- experimental work
- external work
- extra work
- facing work
- factory work
- fascine work
- finishing work
- finish work
- floating construction works
- flood-control works
- flood-protection works
- floor work
- floor-and-wall tiling work
- floor covering work
- food industry production work
- foundation work
- funerary works
- further day's work
- gas works
- gauged work
- glazed work
- glazier's work
- half-plain work
- hammered work
- hand work
- handy work
- heat insulation work
- heavy work
- highly mechanized work
- hot work
- in-fill masonry work
- innovative construction work
- insulating work
- intake works
- internal work in the system
- ironmongery work
- joinery work
- land retention works
- landslide protection works
- loading works
- manual work
- marine works
- metallurgical processing works
- night work
- nonconforming work
- office work
- off-the-site work
- one-coat work
- open-air intake works
- open construction works
- ornamental works
- ornate work
- outlet works
- overhang work
- overhead work
- permanent works up to ground level
- petroleum extraction works
- piece work
- pitched work
- plaster work
- plumbing work
- power production works
- precast works
- production works
- promotion work
- protection works
- protective works
- public works
- random ashlar work
- refurbishment work
- refuse disposal works
- refuse incineration works
- regulation works
- reinforced concrete work
- research work
- reticulated work
- road transport works
- roof tiling work
- rubble ashlar masonry work
- sanitary works
- sea defence works
- sediment exclusion works
- sewage disposal works
- single construction works
- smillage-axed work
- solid plaster work
- steel construction works
- steel works
- steel plate work
- structural restoration work
- surface transport works
- temporary works
- textile work
- three-coat work
- tiling work
- training works
- transport works
- treatment works
- two-coat work
- underground work
- underwater work
- unloading works
- vermiculated work
- virtual work
- waste disposal works
- water works
- water treatment works -
51 practice
1) практика; применение, осуществление на практике2) обычай, обыкновение; установившийся порядок•- civil engineering practice - erecting practice - established construction practice - general practice - improved welding practice - poor construction practice - safe construction practice* * *практика; методика; (технологические) приёмы; система- accepted engineering practice
- approved practice
- architectural practices
- building practice
- civil engineering practice
- concrete practice
- construction practice
- customary practice
- erection practice
- forming practice
- general practice
- good practice
- hot weather practice
- job practice
- jointing practice
- placing practice
- poor practice
- professional practice
- recommended practice for construction
- recommended practice
- safety practice
- shotcreting practice
- site practice
- site engineering practice
- slinging practice
- standard practice for curing concrete
- standard practice for making concrete
- traditional construction practice -
52 Roebling, John Augustus
SUBJECT AREA: Civil engineering[br]b. 12 July 1806 Muhlhausen, Prussiad. 22 July 1869 Brooklyn, New York, USA[br]German/American bridge engineer and builder.[br]The son of Polycarp Roebling, a tobacconist, he studied mathematics at Dr Unger's Pedagogium in Erfurt and went on to the Royal Polytechnic Institute in Berlin, from which he graduated in 1826 with honours in civil engineering. He spent the next three years working for the Prussian government on the construction of roads and bridges. With his brother and a group of friends, he emigrated to the United States, sailing from Bremen on 23 May 1831 and docking in Philadelphia eleven weeks later. They bought 7,000 acres (2,800 hectares) in Butler County, western Pennsylvania, and established a village, at first called Germania but later known as Saxonburg. Roebling gave up trying to establish himself as a farmer and found work for the state of Pennsylvania as Assistant Engineer on the Beaver River canal and others, then surveying a railroad route across the Allegheny Mountains. During his canal work, he noted the failings of the hemp ropes that were in use at that time, and recalled having read of wire ropes in a German journal; he built a rope-walk at his Saxonburg farm, bought a supply of iron wire and trained local labour in the method of wire twisting.At this time, many canals crossed rivers by means of aqueducts. In 1844, the Pennsylvania Canal aqueduct across the Allegheny River was due to be renewed, having become unsafe. Roebling made proposals which were accepted by the canal company: seven wooden spans of 162 ft (49 m) each were supported on either side by a 7 in. (18 cm) diameter cable, Roebling himself having to devise all the machinery required for the erection. He subsequently built four more suspension aqueducts, one of which was converted to a toll bridge and was still in use a century later.In 1849 he moved to Trenton, New Jersey, where he set up a new wire rope plant. In 1851 he started the construction (completed in 1855) of an 821 ft (250 m) long suspension railroad bridge across the Niagara River, 245 ft (75 m) above the rapids; each cable consisted of 3,640 wrought iron wires. A lower deck carried road traffic. He also constructed a bridge across the Ohio River between Cincinnati and Covington, a task which was much protracted due to the Civil War; this bridge was finally completed in 1866.Roebling's crowning achievement was to have been the design and construction of the bridge over the Hudson River between Brooklyn and Staten Island, New York, but he did not live to see its completion. It had a span of 1,595 ft (486 m), designed to bear a load of 18,700 tons (19,000 tonnes) with a headroom of 135 ft (41 m). The work of building had barely started when, at the Brooklyn wharf, a boat crushed Roebling's foot against the timbering and he died of tetanus three weeks later. His son, Washington Augustus Roebling, then took charge of this great work.[br]Further ReadingD.B.Steinman and S.R.Watson, 1941, Bridges and their Builders, New York: Dover Books.D.McCullough, 1982, The Great Bridge: The Epic Story of the Building of the Brooklyn Bridge, New York: Simon \& Schuster.IMcNBiographical history of technology > Roebling, John Augustus
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53 CE
1) Общая лексика: hum. сокр. Capillary Electrophoresis2) Компьютерная техника: Cgi Edition, Compact Edition, Compact Environment, Correctable Error, channel encoder3) Биология: cellulose exchanger4) Американизм: A Covered Entity5) Латинский язык: Caveat Emptor6) Военный термин: Campaign Evaluation, Canadian Engineers, Cartographic Entity, Central Europe, Chief of Engineers, Collateral Enclave, Collection Emphasis, Commander's Evaluation, Communications and Electronics, Comprehensive Evaluation, Concept Evaluation, Continuous Evaluation, Corps of Engineers, Criticism Entries, Current Exploitation, carrying equipment, chemical energy, chemical engineer, circular error, civil emergency, civil engineering, communications equipment, communications/electronics, compass error, composition exploding, construction equipment, control element, control equipment, controller error, cost effective, cost-effectiveness (критерий), counterespionage, crew error, crew evaluator, critical examination, cumulative expenditures, Corps of Engineers (U.S. Army), Civil Engineer (s)7) Техника: Combustion Engineering, Inc., Corps of Engineers, U.S. Army, Customer Experience, chronometer error, combustion engine, common emitter, common equipment, common-emitter transistor connection, conductivity element, containment environment, exploding composition8) Сельское хозяйство: European health & safety product label (Conformité Européenne)9) Математика: круговая ошибка (circular error), полный перебор (complete enumeration), радиальное отклонение (circular error)10) Религия: Catholic Encyclopedia, Christian Endeavor11) Экономика: Office of the Chief Economist12) Страхование: consumption entry13) Автомобильный термин: commutator end14) Грубое выражение: Crap Extended, Cum Egg15) Политика: Sri Lanka16) Телекоммуникации: сторона клиента17) Сокращение: Chief Engineer (British Army), Chief Engineer, Chief Executive, Church of England, Co-operative Engagement, Command Element, Common Era (substitute for AD), Concurrent Engineering, Control Engineer, ship, Corps of Engineers Command (US Army), Cost Estimate, Counsellor of Embassy, Customer Engineer, composition, exploding, continuing education18) Университет: College Of Engineering, Conventional Examination19) Электроника: Capillary electrophoresis, Conformity To European, Consumer Electronics20) Вычислительная техника: cost of error, Compact Edition (MS, Windows), Connection Endpoint (UNI), Common Era (substitute for AD), Customer Engineer (see also,) \<\< FE\>\>, затраты на ошибку, эксплуатационное обслуживание21) Генетика: (capillary electrophoresis) КЭ (капиллярный электрофорез)22) Связь: Control Element /Circuit Emulation, circuit emulation23) Фирменный знак: Con Ele Dyn24) Целлюлозно-бумажная промышленность: Степень каустизации (Caustizing Efficiency; Causticizing Efficiency)25) Энергетика: collector end, коллекторная часть26) СМИ: Collectors Edition27) Деловая лексика: непрерывное обучение, повышение квалификации (continuing education)28) Глоссарий компании Сахалин Энерджи: Cost Element29) Сетевые технологии: communication electronics, customer engineering, инженер по обслуживанию абонентов, электроника средств связи30) Полимеры: carbon equivalent31) Ядерная физика: Coulomb Excitation32) Контроль качества: cost effectiveness33) Сахалин Ю: commodity engineer, conceptual engineering34) Химическое оружие: U.S.- U.S. Army Corps of Engineers, US Army Corps of Engineers, combustion efficiency35) Физическая химия: Collision Energy (в масс-спектроскопии)36) Макаров: color excess37) Безопасность: Communication Encryption38) Расширение файла: Cache Enable, Channel End, Chip Enable, Collision Elimination, Convert Enable, Computer Eyes (Digital Vision IFF bitmap)39) Нефть и газ: coal equivalent40) Военно-политический термин: Council of Europe41) МИД: Convention on Laundering, Search, Seizure and Confiscation of the Proceeds from Crime, computing element, computing element (typically an arithmetic logical unit)42) Высокочастотная электроника: Conformite Europeene43) ООН: Communaute Europeenne44) Должность: Civil Engineer45) НАСА: Communications Engineer, Compact Equipment46) Федеральное бюро расследований: Charlotte Field Office47) Единицы измерений: Christian Era, Common Era48) Международная торговля: Contrast Enhancement49) Зубная имплантология: ITI Continuing Education, программа ITI непрерывного повышения квалификации -
54 Ce
1) Общая лексика: hum. сокр. Capillary Electrophoresis2) Компьютерная техника: Cgi Edition, Compact Edition, Compact Environment, Correctable Error, channel encoder3) Биология: cellulose exchanger4) Американизм: A Covered Entity5) Латинский язык: Caveat Emptor6) Военный термин: Campaign Evaluation, Canadian Engineers, Cartographic Entity, Central Europe, Chief of Engineers, Collateral Enclave, Collection Emphasis, Commander's Evaluation, Communications and Electronics, Comprehensive Evaluation, Concept Evaluation, Continuous Evaluation, Corps of Engineers, Criticism Entries, Current Exploitation, carrying equipment, chemical energy, chemical engineer, circular error, civil emergency, civil engineering, communications equipment, communications/electronics, compass error, composition exploding, construction equipment, control element, control equipment, controller error, cost effective, cost-effectiveness (критерий), counterespionage, crew error, crew evaluator, critical examination, cumulative expenditures, Corps of Engineers (U.S. Army), Civil Engineer (s)7) Техника: Combustion Engineering, Inc., Corps of Engineers, U.S. Army, Customer Experience, chronometer error, combustion engine, common emitter, common equipment, common-emitter transistor connection, conductivity element, containment environment, exploding composition8) Сельское хозяйство: European health & safety product label (Conformité Européenne)9) Математика: круговая ошибка (circular error), полный перебор (complete enumeration), радиальное отклонение (circular error)10) Религия: Catholic Encyclopedia, Christian Endeavor11) Экономика: Office of the Chief Economist12) Страхование: consumption entry13) Автомобильный термин: commutator end14) Грубое выражение: Crap Extended, Cum Egg15) Политика: Sri Lanka16) Телекоммуникации: сторона клиента17) Сокращение: Chief Engineer (British Army), Chief Engineer, Chief Executive, Church of England, Co-operative Engagement, Command Element, Common Era (substitute for AD), Concurrent Engineering, Control Engineer, ship, Corps of Engineers Command (US Army), Cost Estimate, Counsellor of Embassy, Customer Engineer, composition, exploding, continuing education18) Университет: College Of Engineering, Conventional Examination19) Электроника: Capillary electrophoresis, Conformity To European, Consumer Electronics20) Вычислительная техника: cost of error, Compact Edition (MS, Windows), Connection Endpoint (UNI), Common Era (substitute for AD), Customer Engineer (see also,) \<\< FE\>\>, затраты на ошибку, эксплуатационное обслуживание21) Генетика: (capillary electrophoresis) КЭ (капиллярный электрофорез)22) Связь: Control Element /Circuit Emulation, circuit emulation23) Фирменный знак: Con Ele Dyn24) Целлюлозно-бумажная промышленность: Степень каустизации (Caustizing Efficiency; Causticizing Efficiency)25) Энергетика: collector end, коллекторная часть26) СМИ: Collectors Edition27) Деловая лексика: непрерывное обучение, повышение квалификации (continuing education)28) Глоссарий компании Сахалин Энерджи: Cost Element29) Сетевые технологии: communication electronics, customer engineering, инженер по обслуживанию абонентов, электроника средств связи30) Полимеры: carbon equivalent31) Ядерная физика: Coulomb Excitation32) Контроль качества: cost effectiveness33) Сахалин Ю: commodity engineer, conceptual engineering34) Химическое оружие: U.S.- U.S. Army Corps of Engineers, US Army Corps of Engineers, combustion efficiency35) Физическая химия: Collision Energy (в масс-спектроскопии)36) Макаров: color excess37) Безопасность: Communication Encryption38) Расширение файла: Cache Enable, Channel End, Chip Enable, Collision Elimination, Convert Enable, Computer Eyes (Digital Vision IFF bitmap)39) Нефть и газ: coal equivalent40) Военно-политический термин: Council of Europe41) МИД: Convention on Laundering, Search, Seizure and Confiscation of the Proceeds from Crime, computing element, computing element (typically an arithmetic logical unit)42) Высокочастотная электроника: Conformite Europeene43) ООН: Communaute Europeenne44) Должность: Civil Engineer45) НАСА: Communications Engineer, Compact Equipment46) Федеральное бюро расследований: Charlotte Field Office47) Единицы измерений: Christian Era, Common Era48) Международная торговля: Contrast Enhancement49) Зубная имплантология: ITI Continuing Education, программа ITI непрерывного повышения квалификации -
55 ce
1) Общая лексика: hum. сокр. Capillary Electrophoresis2) Компьютерная техника: Cgi Edition, Compact Edition, Compact Environment, Correctable Error, channel encoder3) Биология: cellulose exchanger4) Американизм: A Covered Entity5) Латинский язык: Caveat Emptor6) Военный термин: Campaign Evaluation, Canadian Engineers, Cartographic Entity, Central Europe, Chief of Engineers, Collateral Enclave, Collection Emphasis, Commander's Evaluation, Communications and Electronics, Comprehensive Evaluation, Concept Evaluation, Continuous Evaluation, Corps of Engineers, Criticism Entries, Current Exploitation, carrying equipment, chemical energy, chemical engineer, circular error, civil emergency, civil engineering, communications equipment, communications/electronics, compass error, composition exploding, construction equipment, control element, control equipment, controller error, cost effective, cost-effectiveness (критерий), counterespionage, crew error, crew evaluator, critical examination, cumulative expenditures, Corps of Engineers (U.S. Army), Civil Engineer (s)7) Техника: Combustion Engineering, Inc., Corps of Engineers, U.S. Army, Customer Experience, chronometer error, combustion engine, common emitter, common equipment, common-emitter transistor connection, conductivity element, containment environment, exploding composition8) Сельское хозяйство: European health & safety product label (Conformité Européenne)9) Математика: круговая ошибка (circular error), полный перебор (complete enumeration), радиальное отклонение (circular error)10) Религия: Catholic Encyclopedia, Christian Endeavor11) Экономика: Office of the Chief Economist12) Страхование: consumption entry13) Автомобильный термин: commutator end14) Грубое выражение: Crap Extended, Cum Egg15) Политика: Sri Lanka16) Телекоммуникации: сторона клиента17) Сокращение: Chief Engineer (British Army), Chief Engineer, Chief Executive, Church of England, Co-operative Engagement, Command Element, Common Era (substitute for AD), Concurrent Engineering, Control Engineer, ship, Corps of Engineers Command (US Army), Cost Estimate, Counsellor of Embassy, Customer Engineer, composition, exploding, continuing education18) Университет: College Of Engineering, Conventional Examination19) Электроника: Capillary electrophoresis, Conformity To European, Consumer Electronics20) Вычислительная техника: cost of error, Compact Edition (MS, Windows), Connection Endpoint (UNI), Common Era (substitute for AD), Customer Engineer (see also,) \<\< FE\>\>, затраты на ошибку, эксплуатационное обслуживание21) Генетика: (capillary electrophoresis) КЭ (капиллярный электрофорез)22) Связь: Control Element /Circuit Emulation, circuit emulation23) Фирменный знак: Con Ele Dyn24) Целлюлозно-бумажная промышленность: Степень каустизации (Caustizing Efficiency; Causticizing Efficiency)25) Энергетика: collector end, коллекторная часть26) СМИ: Collectors Edition27) Деловая лексика: непрерывное обучение, повышение квалификации (continuing education)28) Глоссарий компании Сахалин Энерджи: Cost Element29) Сетевые технологии: communication electronics, customer engineering, инженер по обслуживанию абонентов, электроника средств связи30) Полимеры: carbon equivalent31) Ядерная физика: Coulomb Excitation32) Контроль качества: cost effectiveness33) Сахалин Ю: commodity engineer, conceptual engineering34) Химическое оружие: U.S.- U.S. Army Corps of Engineers, US Army Corps of Engineers, combustion efficiency35) Физическая химия: Collision Energy (в масс-спектроскопии)36) Макаров: color excess37) Безопасность: Communication Encryption38) Расширение файла: Cache Enable, Channel End, Chip Enable, Collision Elimination, Convert Enable, Computer Eyes (Digital Vision IFF bitmap)39) Нефть и газ: coal equivalent40) Военно-политический термин: Council of Europe41) МИД: Convention on Laundering, Search, Seizure and Confiscation of the Proceeds from Crime, computing element, computing element (typically an arithmetic logical unit)42) Высокочастотная электроника: Conformite Europeene43) ООН: Communaute Europeenne44) Должность: Civil Engineer45) НАСА: Communications Engineer, Compact Equipment46) Федеральное бюро расследований: Charlotte Field Office47) Единицы измерений: Christian Era, Common Era48) Международная торговля: Contrast Enhancement49) Зубная имплантология: ITI Continuing Education, программа ITI непрерывного повышения квалификации -
56 Downing, Samuel
SUBJECT AREA: Civil engineering[br]b. 19 July 1811 Bagenalstown, Co. Carlow, Irelandd. 21 April 1882[br]Irish engineer and teacher.[br]Samuel Downing had a formative influence on the development of engineering education in Ireland. He was educated at Kilkenny College and Trinity College, Dublin, where he took a BA in 1834. He subsequently attended courses in natural philosophy at Edinburgh, before taking up work as a railway and bridge engineer. Amongst structures on which he worked were the timber viaduct connecting Portland Island to the mainland in Dorset, England, and the curved viaduct at Coed-re-Coed on the Taff Vale Railway, Wales. In 1847 he was persuaded to return to Trinity College, Dublin, as Assistant to Sir John MacNeill, who had been appointed Professor of Engineering in the School of Engineering on its establishment in 1842. MacNeill always found it difficult to give up time on his engineering practice to spend on his teaching duties, so the addition of Downing to the staff gave a great impetus to the effectiveness of the School. When MacNeill retired from the Chair in 1852, Downing was his obvious successor and held the post until his death. For thirty years Downing devoted his engineering expertise and the energy of his warm personality to the School of Engineering and its students, of whom almost four hundred passed through the School in the years when he was responsible for it.[br]Principal Honours and DistinctionsAssociate Member, Institution of Civil Engineers 1852.BibliographyFurther ReadingProceedings of the Institution of Civil Engineers 72:310–11.AB -
57 Locke, Joseph
[br]b. 9 August 1805 Attercliffe, Yorkshire, Englandd. 18 September 1860 Moffat, Scotland[br]English civil engineer who built many important early main-line railways.[br]Joseph Locke was the son of a colliery viewer who had known George Stephenson in Northumberland before moving to Yorkshire: Locke himself became a pupil of Stephenson in 1823. He worked with Robert Stephenson at Robert Stephenson \& Co.'s locomotive works and surveyed railways, including the Leeds \& Selby and the Canterbury \& Whitstable, for George Stephenson.When George Stephenson was appointed Chief Engineer for construction of the Liverpool \& Manchester Railway in 1826, the first resident engineer whom he appointed to work under him was Locke, who took a prominent part in promoting traction by locomotives rather than by fixed engines with cable haulage. The pupil eventually excelled the master and in 1835 Locke was appointed in place of Stephenson as Chief Engineer for construction of the Grand Junction Railway. He introduced double-headed rails carried in chairs on wooden sleepers, the prototype of the bullhead track that became standard on British railways for more than a century. By preparing the most detailed specifications, Locke was able to estimate the cost of the railway much more accurately than was usual at that time, and it was built at a cost close to the estimate; this made his name. He became Engineer to the London \& Southampton Railway and completed the Sheffield, Ashton-under-Lyme \& Manchester Railway, including the 3-mile (3.8 km) Woodhead Tunnel, which had been started by Charles Vignoles. He was subsequently responsible for many British main lines, including those of the companies that extended the West Coast Route northwards from Preston to Scotland. He was also Engineer to important early main lines in France, notably that from Paris to Rouen and its extension to Le Havre, and in Spain and Holland. In 1847 Locke was elected MP for Honiton.Locke appreciated early in his career that steam locomotives able to operate over gradients steeper than at first thought practicable would be developed. Overall his monument is not great individual works of engineering, such as the famous bridges of his close contemporaries Robert Stephenson and I.K. Brunel, but a series of lines built economically but soundly through rugged country without such works; for example, the line over Shap, Cumbria.[br]Principal Honours and DistinctionsOfficier de la Légion d'honneur, France. FRS. President, Institution of Civil Engineers 1858–9.Further ReadingObituary, 1861, Minutes of Proceedings of the Institution of Civil Engineers 20. L.T.C.Rolt, 1962, Great Engineers, London: G. Bell \& Sons, ch. 6.Industrial Heritage, 1991, Vol. 9(2):9.See also: Brassey, ThomasPJGR -
58 Pratt, Thomas Willis
SUBJECT AREA: Civil engineering[br]b. 4 July 1812 Boston, Massachusetts, USAd. 10 July 1875 Boston, Massachusetts, USA.[br]American civil engineer, inventor of the Pratt truss.[br]The son of Caleb and Sally Pratt, Thomas Pratt attended public school in Boston before going on to the Rensselaer School (now the Rensselaer Polytechnic Institute) in Troy, New York. While at school, his spare time was spent assisting his father, a well-known architect, in his practice. He is said to have drawn a complete set of plans for a substantial house when only 12 years old. At the conclusion of his studies, he was offered a teaching position at Rensselaer but turned it down as he was planning an engineering career; he became a government assistant on the construction of dry docks at Charleston, South Carolina, and Norfolk, Virginia.After this experience of government work, he turned to railroad construction, first with the Boston and Lowell and Boston and Maine railroads, followed by many others. In this work, he became involved in bridge construction, mostly as consulting engineer. His best-known bridge was that over the Merrimack River at Newburyport, Massachusetts, which he built with six long timber spans and a metal drawspan. He also invented a new method of ship propulsion, a form of steam boiler, an equalizer for drawbridge supports and an improved form of combined timber and steel truss; he is best known, however, for the Pratt truss. This did not truly come into its own until the inception of all-metal construction for bridges, by which time it was too late for Pratt to gain much financial reward from it.[br]Further ReadingD.B.Steinman and S.R.Watson, 1941, Bridges and their Builders, New York: Dover Books.D.Malone (ed.), Dictionary of American Biography, New York: Charles Scribner.IMcN -
59 Telford, Thomas
[br]b. 9 August 1757 Glendinning, Dumfriesshire, Scotlandd. 2 September 1834 London, England.[br]Scottish civil engineer.[br]Telford was the son of a shepherd, who died when the boy was in his first year. Brought up by his mother, Janet Jackson, he attended the parish school at Westerkirk. He was apprenticed to a stonemason in Lochmaben and to another in Langholm. In 1780 he walked from Eskdale to Edinburgh and in 1872 rode to London on a horse that he was to deliver there. He worked for Sir William Chambers as a mason on Somerset House, then on the Eskdale house of Sir James Johnstone. In 1783–4 he worked on the new Commissioner's House and other buildings at Portsmouth dockyard.In late 1786 Telford was appointed County Surveyor for Shropshire and moved to Shrewsbury Castle, with work initially on the new infirmary and County Gaol. He designed the church of St Mary Magdalene, Bridgnorth, and also the church at Madley. Telford built his first bridge in 1790–2 at Montford; between 1790 and 1796 he built forty-five road bridges in Shropshire, including Buildwas Bridge. In September 1793 he was appointed general agent, engineer and architect to the Ellesmere Canal, which was to connect the Mersey and Dee rivers with the Severn at Shrewsbury; William Jessop was Principal Engineer. This work included the Pont Cysyllte aqueduct, a 1,000 ft (305 m) long cast-iron trough 127 ft (39 m) above ground level, which entailed an on-site ironworks and took ten years to complete; the aqueduct is still in use today. In 1800 Telford put forward a plan for a new London Bridge with a single cast-iron arch with a span of 600 ft (183 m) but this was not built.In 1801 Telford was appointed engineer to the British Fisheries Society "to report on Highland Communications" in Scotland where, over the following eighteen years, 920 miles (1,480 km) of new roads were built, 280 miles (450 km) of the old military roads were realigned and rebuilt, over 1,000 bridges were constructed and much harbour work done, all under Telford's direction. A further 180 miles (290 km) of new roads were also constructed in the Lowlands of Scotland. From 1804 to 1822 he was also engaged on the construction of the Caledonian Canal: 119 miles (191 km) in all, 58 miles (93 km) being sea loch, 38 miles (61 km) being Lochs Lochy, Oich and Ness, 23 miles (37 km) having to be cut.In 1808 he was invited by King Gustav IV Adolf of Sweden to assist Count Baltzar von Platen in the survey and construction of a canal between the North Sea and the Baltic. Telford surveyed the 114 mile (183 km) route in six weeks; 53 miles (85 km) of new canal were to be cut. Soon after the plans for the canal were completed, the King of Sweden created him a Knight of the Order of Vasa, an honour that he would have liked to have declined. At one time some 60,000 soldiers and seamen were engaged on the work, Telford supplying supervisors, machinery—including an 8 hp steam dredger from the Donkin works and machinery for two small paddle boats—and ironwork for some of the locks. Under his direction an ironworks was set up at Motala, the foundation of an important Swedish industrial concern which is still flourishing today. The Gotha Canal was opened in September 1832.In 1811 Telford was asked to make recommendations for the improvement of the Shrewsbury to Holyhead section of the London-Holyhead road, and in 1815 he was asked to survey the whole route from London for a Parliamentary Committee. Construction of his new road took fifteen years, apart from the bridges at Conway and over the Menai Straits, both suspension bridges by Telford and opened in 1826. The Menai bridge had a span of 579 ft (176 m), the roadway being 153 ft (47 m) above the water level.In 1817 Telford was appointed Engineer to the Exchequer Loan Commission, a body set up to make capital loans for deserving projects in the hard times that followed after the peace of Waterloo. In 1820 he became the first President of the Engineers Institute, which gained its Royal Charter in 1828 to become the Institution of Civil Engineers. He was appointed Engineer to the St Katharine's Dock Company during its construction from 1825 to 1828, and was consulted on several early railway projects including the Liverpool and Manchester as well as a number of canal works in the Midlands including the new Harecastle tunnel, 3,000 ft (914 m) long.Telford led a largely itinerant life, living in hotels and lodgings, acquiring his own house for the first time in 1821, 24 Abingdon Street, Westminster, which was partly used as a school for young civil engineers. He died there in 1834, after suffering in his later years from the isolation of deafness. He was buried in Westminster Abbey.[br]Principal Honours and DistinctionsFRSE 1803. Knight of the Order of Vasa, Sweden 1808. FRS 1827. First President, Engineers Insitute 1820.Further ReadingL.T.C.Rolt, 1979, Thomas Telford, London: Penguin.C.Hadfield, 1993, Thomas Telford's Temptation, London: M. \& M.Baldwin.IMcN -
60 Cubitt, William
[br]b. 1785 Dilham, Norfolk, Englandd. 13 October 1861 Clapham Common, Surrey, England[br]English civil engineer and contractor.[br]The son of a miller, he received a rudimentary education in the village school. At an early age he was helping his father in the mill, and in 1800 he was apprenticed to a cabinet maker. After four years he returned to work with his father, but, preferring to leave the parental home, he not long afterwards joined a firm of agricultural-machinery makers in Swanton in Norfolk. There he acquired a reputation for making accurate patterns for the iron caster and demonstrated a talent for mechanical invention, patenting a self-regulating windmill sail in 1807. He then set up on his own as a millwright, but he found he could better himself by joining the engineering works of Ransomes of Ipswich in 1812. He was soon appointed their Chief Engineer, and after nine years he became a partner in the firm until he moved to London in 1826. Around 1818 he invented the treadmill, with the aim of putting prisoners to useful work in grinding corn and other applications. It was rapidly adopted by the principal prisons, more as a means of punishment than an instrument of useful work.From 1814 Cubitt had been gaining experience in civil engineering, and upon his removal to London his career in this field began to take off. He was engaged on many canal-building projects, including the Oxford and Liverpool Junction canals. He accomplished some notable dock works, such as the Bute docks at Cardiff, the Middlesborough docks and the coal drops on the river Tees. He improved navigation on the river Severn and compiled valuable reports on a number of other leading rivers.The railway construction boom of the 1840s provided him with fresh opportunities. He engineered the South Eastern Railway (SER) with its daringly constructed line below the cliffs between Folkestone and Dover; the railway was completed in 1843, using massive charges of explosive to blast a way through the cliffs. Cubitt was Consulting Engineer to the Great Northern Railway and tried, with less than his usual success, to get the atmospheric system to work on the Croydon Railway.When the SER began a steamer service between Folkestone and Boulogne, Cubitt was engaged to improve the port facilities there and went on to act as Consulting Engineer to the Boulogne and Amiens Railway. Other commissions on the European continent included surveying the line between Paris and Lyons, advising the Hanoverian government on the harbour and docks at Hamburg and directing the water-supply works for Berlin.Cubitt was actively involved in the erection of the Crystal Palace for the Great Exhibition of 1851; in recognition of this work Queen Victoria knighted him at Windsor Castle on 23 December 1851.Cubitt's son Joseph (1811–72) was also a notable civil engineer, with many railway and harbour works to his credit.[br]Principal Honours and DistinctionsKnighted 1851. FRS 1830. President, Institution of Civil Engineers 1850 and 1851.Further ReadingObituary, 1862, Minutes of 'the Proceedings of the Institution of Civil Engineers 21:552– 8.LRD
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