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1 chemical observation
1) Военный термин: химическая разведка поля боя2) Техника: химическое наблюдение -
2 chemical observation
химическая разведка поля боя; мор. химическое наблюдение -
3 CHEMICAL OBSERVATION
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4 observation
наблюдение; обзор; мед., мор. обсервация; см. тж. surveillancenight color image intensification (ground target) observation — ночное наблюдение (за наземными целями) с использованием ПНВ с усилением цветного изображения
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5 nuclear, biological, chemical area of observation
NBCAO, nuclear, biological, chemical area of observationEnglish-Russian dictionary of planing, cross-planing and slotting machines > nuclear, biological, chemical area of observation
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6 nuclear, biological, chemical zone of observation
NBCZO, nuclear, biological, chemical zone of observationEnglish-Russian dictionary of planing, cross-planing and slotting machines > nuclear, biological, chemical zone of observation
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7 NUCLEAR CHEMICAL AREA OF OBSERVATION
English-Arabic military dictionary > NUCLEAR CHEMICAL AREA OF OBSERVATION
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8 device
устройство; прибор; аппарат; средство; элемент; знакintruder alarm (proximity) device — разведывательно-сигнализационный прибор с датчиками неконтактного действия
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9 company
bulk petrol (transport) company — Бр. рота подвоза наливного (бестарного) горючего
Commando (oil gas extraction area) company — рота охраны и защиты (нефтегазовых промыслов), рота «команчо»
field company, RE — Бр. саперная рота
field survey company, RE — Бр. полевая топографическая рота инженерных войск
HQ company, US Army — штабная рота штаба СВ США
long-range (reconnaissance) patrol company — рота дальней [глубинной] разведки
special boat company, Royal Marines — Бр. особая [отдельная] рота десантных катеров МП
— AG's company— airborne infantry company— air-mission company light— commandos company— Rangers company— smoke generator company -
10 system
система; комплекс; средство; способ; метод; сеть (напр. дорог) ;aiming-navigation system (analog, digital) — прицельно-навигационная система (аналоговая, цифровая)
air observation, acquisition and fire control system — (бортовая) система воздушной разведки, засечки целей и управления огнем
air support aircraft ECM (equipment) system — (бортовая) система РЭП для самолетов авиационной поддержки
airborne (ground) target acquisition and illumination laser system — ав. бортовая лазерная система обнаружения и подсветки (наземных) целей
airborne (ground) targeting and laser designator system — ав. бортовая лазерная система обнаружения и целеуказания (наземных целей)
airborne laser illumination, ranging and tracking system — ав. бортовая система лазерной подсветки, определения дальности и сопровождения цели
artillery (nuclear) delivery system — артиллерийская система доставки (ядерного) боеприпаса (к цели)
C2 system — система оперативного управления; система руководства и управления
C3 system — система руководства, управления и связи; система оперативного управления и связи
channel and message switching (automatic) communications system — АСС с коммутацией каналов и сообщений
country-fair type rotation system (of instruction) — метод одновременного обучения [опроса] нескольких учебных групп (переходящих от одного объекта изучения к другому)
dual-capable (conventional/nuclear) weapon delivery system — система доставки (обычного или ядерного) боеприпаса к цели
electromagnetic emitters identification, location and suppression system — система обнаружения, опознавания и подавления источников электромагнитных излучений [излучающих РЭС]
field antimissile (missile) system — полевой [войсковой] ПРК
fire-on-the-move (air defense) gun system — подвижный зенитный артиллерийский комплекс для стрельбы в движении [на ходу]
fluidic (missile) control system — ркт. гидравлическая [струйная] система управления полетом
forward (area) air defense system — система ПВО передового района; ЗРК для войсковой ПВО передового района
graduated (availability) operational readiness system — Бр. система поэтапной боевой готовности (частей и соединений)
high-resolution satellite IR detection, tracking and targeting system — спутниковая система с ИК аппаратурой высокой разрешающей способности для обнаружения, сопровождения целей и наведения средств поражения
ICBM (alarm and) early warning satellite system — спутниковая система обнаружения пусков МБР и раннего предупреждения (средств ПРО)
information storage, tracking and retrieval system — система накопления, хранения и поиска информации
instantaneous grenade launcher (armored vehicle) smoke system — гранатомет (БМ) для быстрой постановки дымовой завесы
Precision Location [Locator] (and) Strike system — высокоточная система обеспечения обнаружения и поражения целей; высокоточный разведывательно-ударный комплекс
rapid deceleration (parachute) delivery system — парашютная система выброски грузов с быстрым торможением
real time, high-resolution reconnaissance satellite system — спутниковая разведывательная система с высокой разрешающей способностью аппаратуры и передачей информации в реальном масштабе времени
received signal-oriented (output) jamming signal power-adjusting ECM system — система РЭП с автоматическим регулированием уровня помех в зависимости от мощности принимаемого сигнала
sea-based nuclear (weapon) delivery system — система морского базирования доставки ядерного боеприпаса к цели
small surface-to-air ship self-defense (missile) system — ЗРК ближнего действия для самообороны корабля
Status Control, Alerting and Reporting system — система оповещения, контроля и уточнения состояния [боевой готовности] сил и средств
surface missile (weapon) system — наземный [корабельный] РК
target acquisition, rapid designation and precise aiming system — комплекс аппаратуры обнаружения цели, быстрого целеуказания и точного прицеливания
— ABM defense system— antimissile missile system— central weapon system— countersurprise military system— laser surveying system— tank weapon system— vertical launching system— weapons system -
11 battalion
батальон; арт. дивизионAA artillery automatic weapons battalion, SP — дивизион ЗСУ
forward operations battalion, Intelligence and Security Command — передовой оперативный батальон командования разведки и безопасности
LIS Army, Europe battalion — батальон в составе СВ США в Европейской зоне (особой структуры)
operations battalion, Intelligence and Security Command — оперативный батальон командования разведки и безопасности
ordnance (nuclear) ammunition battalion — артиллерийско-технический батальон обеспечения (ядерными) боеприпасами
— AT artillery battalion— Commandos battalion— composite artillery battalion— light arrnored battalion— light artillery battalion— logistic support battalion— mechanized infantry battalion— mixed artillery battalion— petroleum supply battalion— Rangers battalion -
12 point
головной [тыльный] дозор; ориентир; пункт; балл— ammunition breakdown point— dismounting point— drop-off point— initial rallying point— mounting point— objective rallying point— starting point— strategic focal point -
13 officer
офицер; должностное лицо; сотрудник; укомплектовывать офицерским составом; командоватьAir officer, Administration, Strike Command — Бр. начальник административного управления командования ВВС в Великобритании
Air officer, Engineering, Strike Command — Бр. начальник инженерно-технического управления командования ВВС в Великобритании
Air officer, Maintenance, RAF Support Command — Бр. начальник управления технического обслуживания командования тыла ВВС
Air officer, Training, RAF Support Command — начальник управления подготовки ЛС командования тыла ВВС
assistant G3 plans officer — помощник начальника оперативного отдела [отделения] по планированию
Flag officer, Germany — командующий ВМС ФРГ
Flag officer, Naval Air Command — Бр. командующий авиацией ВМС
Flag officer, Submarines — Бр. командующий подводными силами ВМС
float an officer (through personnel channels) — направлять личное дело офицера (в различные кадровые инстанции);
General officer Commanding, Royal Marines — Бр. командующий МП
General officer Commanding, the Artillery Division — командир артиллерийской дивизии (БРА)
landing zone (aircraft) control officer — офицер по управлению авиацией в районе десантирования (ВДВ)
officer, responsible for the exercise — офицер, ответственный за учение (ВМС)
Principal Medical officer, Strike Command — Бр. начальник медицинской службы командования ВВС в Великобритании
Senior Air Staff officer, Strike Command — Бр. НШ командования ВВС в Великобритании
senior officer, commando assault unit — Бр. командир штурмового отряда «коммандос»
senior officer, naval assault unit — Бр. командир военно-морского штурмового отряда
senior officer, naval build-up unit — Бр. командир военно-морского отряда наращивания сил десанта
senior officer, present — старший из присутствующих начальников
senior officer, Royal Artillery — Бр. старший начальник артиллерии
senior officer, Royal Engineers — Бр. старший начальник инженерных войск
short service term (commissioned) officer — Бр. офицер, призываемый на кратковременную службу; офицер, проходящий службу по краткосрочному контракту
tactical air officer (afloat) — офицер по управлению ТА поддержки (морского) десанта (на корабле управления)
The Dental officer, US Marine Corps — начальник зубоврачебной службы МП США
The Medical officer, US Marine Corps — начальник медицинской службы МП США
— burial supervising officer— company grade officer— education services officer— field services officer— fire prevention officer— general duty officer— information activities officer— logistics readiness officer— regular commissioned officer— security control officer— supply management officer— transportation officer— water supply officer* * * -
14 Dow, Herbert Henry
SUBJECT AREA: Metallurgy[br]b. 26 February 1866 Belleville, Ontario, Canadad. 15 October 1930 Rochester, Minnesota, USA[br]American industrial chemist, pioneer manufacturer of magnesium alloys.[br]Of New England ancestry, his family returned there soon after his birth and later moved to Cleveland, Ohio. In 1884, Dow entered the Case School of Applied Science, graduating in science four years later. His thesis dealt partly with the brines of Ohio, and he was persuaded to present a paper on brine to the meeting of the American Association for he Advancement of Science being held in Cleveland the same year. That entailed visits to collect samples of brines from various localities, and led to the observation that their composition varied, one having a higher lithium content while another was richer in bromine. This study of brines proved to be the basis for his career in industrial chemistry. In 1888 Dow was appointed Professor of Chemistry at the Homeopathic Hospital College in Cleveland, but he continued to work on brine, obtaining a patent in the same year for extracting bromine by blowing air through slightly electrolysed brine. He set up a small company to exploit the process, but it failed; the process was taken up and successfully worked by the Midland Chemical Company in Midland, Michigan. The electrolysis required a direct-current generator which, when it was installed in 1892, was probably the first of its kind in America. Dow next set up a company to produce chlorine by the electrolysis of brine. It moved to Midland in 1896, and the Dow Central Company purchased the Midland Chemical Company in 1900. Its main concern was the manufacture of bleaching powder, but the company continued to grow, based on Dow's steady development of chemical compounds that could be derived from brines. His search for further applications of chlorine led to the making of insecticides and an interest in horticulture. Meanwhile, his experience at the Homeopathic Hospital doubtless fired an interest in pharmaceuticals. One of the substances found in brine was magnesium chloride, and by 1918 magnesium metal was being produced on a small scale by electrolysis. An intensive study of its alloys followed, leading to the large-scale production of these important light-metal alloys, under the name of Dowmetals. Two other "firsts" achieved by the company were the synthetic indigo process and the production of the element iodine in the USA. The Dow company became one of the leading chemical manufacturers in the USA, and at the same time Dow played an active part in public life, serving on many public and education boards.[br]Principal Honours and DistinctionsSociety of Chemical Industry Perkin Medal 1930.BibliographyDow was granted 65 patents for a wide range of chemical processes.Further ReadingObituary, 1930, Ind. Eng. Chem. (October)."The Dow Chemical Company", 1925, Ind. Eng. Chem. (September)LRD -
15 Mond, Ludwig
SUBJECT AREA: Chemical technology[br]b. 7 March 1839 Cassel, Germanyd. 11 December 1909 London, England[br]German (naturalized English) industrial chemist.[br]Born into a prosperous Jewish merchant family, Mond studied at the Polytechnic in Cassel and then under the distinguished chemists Hermann Kolbe at Marburg and Bunsen at Heidelberg from 1856. In 1859 he began work as an industrial chemist in various works in Germany and Holland. At this time, Mond was pursuing his method for recovering sulphur from the alkali wastes in the Leblanc soda-making process. Mond came to England in 1862 and five years later settled permanently, in partnership with John Hutchinson \& Co. at Widnes, to perfect his process, although complete success eluded him. He became a naturalized British subject in 1880.In 1872 Mond became acquainted with Ernest Solvay, the Belgian chemist who developed the ammonia-soda process which finally supplanted the Leblanc process. Mond negotiated the English patent rights and set up the first ammoniasoda plant in England at Winnington in Cheshire, in partnership with John Brunner. After overcoming many difficulties by incessant hard work, the process became a financial success and in 1881 Brunner, Mond \& Co. was formed, for a time the largest alkali works in the world. In 1926 the company merged with others to form Imperial Chemical Industries Ltd (ICI). The firm was one of the first to adopt the eight-hour day and to provide model dwellings and playing fields for its employees.From 1879 Mond took up the production of ammonia and this led to the Mond producer-gas plant, patented in 1883. The process consisted of passing air and steam over coal and coke at a carefully regulated temperature. Ammonia was generated and, at the same time, so was a cheap and useful producer gas. Mond's major discovery followed the observation in 1889 that carbon monoxide could combine with nickel in its ore at around 60°C to form a gaseous compound, nickel carbonyl. This, on heating to a higher temperature, would then decompose to give pure nickel. Mond followed up this unusual way of producing and purifying a metal and by 1892 had succeeded in setting up a pilot plant to perfect a large-scale process and went on to form the Mond Nickel Company.Apart from being a successful industrialist, Mond was prominent in scientific circles and played a leading role in the setting up of the Society of Chemical Industry in 1881. The success of his operations earned him great wealth, much of which he donated for learned and charitable purposes. He formed a notable collection of pictures which he bequeathed to the National Gallery.[br]Principal Honours and DistinctionsFRS 1891.Bibliography1885, "On the origin of the ammonia-soda process", Journal of the Society of Chemical Industry 4:527–9.1895. "The history of the process of nickel extraction", Journal of the Society of Chemical Industry 14:945–6.Further ReadingJ.M.Cohen, 1956, The Life of Ludwig Mond, London: Methuen. Obituary, 1918, Journal of the Chemical Society 113:318–34.F.C.Donnan, 1939, Ludwig Mond 1839–1909, London (a valuable lecture).LRD -
16 equipment
имущество; снаряжение; обмундирование; материальная часть; ( боевая) техника; аппаратура; технические средства; приборы; см. тж. set782 equipment — усл. личное военное снаряжение (МП)
test, measurement and diagnostic equipment — комплекс испытательно-измерительной и диагностической аппаратуры
— engineering equipment— gasoline dispensing equipment— material s-handling equipment— multichannel communications equipment— water supply equipment -
17 party
команда, группа, отряд; партия; наряд; см. тж. grouptactical (air) control party — команда [пост] управления [наведения] ТА
— advanced landing party— OP party -
18 zone
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19 unit
организационная единица; боевая единица (напр. корабль, ЛА танк); подразделение; часть; соединение; расчетно-снабженческая единица; секция; орган; элемент; комплект; агрегат; установка; см. тж. elementbulk petrol (transport) unit — Бр. часть [подразделение] подвоза наливного (бестарного) горючего
counter C3 unit — часть [подразделение] подавления системы оперативного управления и связи
Fleet Marine (Corps) reconnaissance unit — разведывательное подразделение [часть] флотских сил МП
multisensor (AA) firing unit 3PK — с приборным комплексом из нескольких систем обнаружения и сопровождения
photo (graphic) reconnaissance unit — фоторазведывательная часть [подразделение]
surface-launched unit, fuel air explosive — установка дистанционного разминирования объемным взрывом
surface-launched unit, mine — установка дистанционного минирования
tactical (air) control unit — часть [подразделение] управления ТА
war (time) strength (TOE) unit — часть, укомплектованная по штатам военного времени
— air unit— ASA unit— BM unit— border operation unit— car unit— depot support unit— dry unit— EW unit— GM unit— host country unit— HQ unit— logistics support unit— manpack radio unit— marksmanship training unit— mechanized infantry unit— missile-armed unit— nuclear weapon unit— provisional unit— QM unit— Rangers unit— supported unit— TOE unit— transportation unit— truck transport unit— van unit— wet unit* * *1) часть; 2) единица -
20 Gibson, R.O.
[br]fl. 1920s–30s[br]English chemist who, with E.O.Fawcett, discovered polythene.[br]Dr Gibson's work towards the discovery of polythene had its origin in a visit in 1925 to Dr A. Michels of Amsterdam University; the latter had made major advances in techniques for studying chemical reactions at very high pressures. After working with Michels for a time, in 1926 Gibson joined Brunner Mond, one of the companies that went on to form the chemical giant Imperial Chemical Industries (ICI). The company supported research into fundamental chemical research that had no immediate commercial application, including the field being cultivated by Michels and Gibson. In 1933 Gibson was joined by another ICI chemist, E.O.Fawcett, who had worked with W.H. Carothers in the USA on polymer chemistry. They were asked to study the effects of high pressure on various reaction systems, including a mixture of benzaldehyde and ethylene. Gibson's notebook for 27 March that year records that after a loss of pressure during which the benzaldehyde was blown out of the reaction tube, a waxy solid was observed in the tube. This is generally recognized as the first recorded observation of polythene. By the following June they had shown that the white, waxy solid was a fairly high molecular weight polymer of ethylene formed at a temperature of 443°K and a pressure of 2,000 bar. However, only small amounts of the material were produced and its significance was not immediately recognized. It was not until two years later that W.P.Perrin and others, also ICI chemists, restarted work on the polymer. They showed that it could be moulded, drawn into threads and cast into tough films. It was a good electrical insulator and almost inert chemically. A British patent for producing polythene was taken out in 1936, and after further development work a production plant began operating in September 1939, just as the Second World War was breaking out. Polythene had arrived in time to make a major contribution to the war effort, for it had the insulating properties required for newly developing work on radar. When peacetime uses became possible, polythene production surged ahead and became the major industry it is today, with a myriad uses in industry and in everyday life.[br]Bibliography1964, The Discovery of Polythene, Royal Institute of Chemistry Lecture Series 1, London.LRD
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