basic+weapons

production

n

1) производство; изготовление; выработка, добыча

- means of production

- manufacture of the means of production

- instrument of production

- types of production relations

- structure of production

- decentralization of production

- intensification of production

- renovation of production

- unit of production

- production in the civilian branches

- drop in production

- curb down production

- cut down production

- check down production

- curtail down production

- go into full production

- speed up production

- step up production

- ban the production of atomic weapons

- production declined by 10 per cent

2) продукция, продукт, изделие

3) производительность

•

- basic production

- duplicate production

- production target

- defence production

- world production

- defence-supporting production

- wasteful production

- home production

- secondary production

- efficient production

- growth of consumer goods production

- production schedules

- quantity production

- growth of consumer goods production amounted to

- energy production

- current production

- consumer goods production

- planned production

- maximum production

- pilot production

- annual production

- manufacturing production

- production capacity

- lower production costs

- military production

- continuous production

- production costs

- social production

- reduce production costs

- livestock product production

- production cycle

- household production

- munitions production

- production performance

- resource production

- agricultural production

- total production

- cut-backs in industrial production

- industrial production

- primary production

- overall production

- civilian production

- domestic production

- present-day production

- farm production

- hydroenergy production

chemical

1. n химический реактив; химический продукт; химикат

toxicity of chemical agents — токсичность химических агентов

the chemical properties of iron — химические свойства железа

chemical wear resistance — сопротивление химическому износу

chemical straightening — выпрямление волос химическим путем

chemical closet — клозет с химической стерилизацией фекалий

2. n химикалии; химические препараты

chemical artillery shell — артиллерийский химический снаряд

chemical weapons munitions — боеприпасы химического оружия

chemical soil stabilization — химическое укрепление грунта

chemical sewage treatment — химическая очистка сточных вод

chemical desulfitation — десульфитация химическим способом

3. a химический; относящийся к химии

chemical affinity — химическое средство

chemical constitution — число и расположение атомов в молекуле

chemical symbol — химический знак

chemical foam — химическая пена

chemical fog — химическая вуаль

chemical note — химическая нота

chemical bond — химическая связь

chemical odor — химический запах

4. a воен. химический; относящийся к химическому оружию; отравляющий

chemical attack — химическое нападение

chemical agent — боевое отравляющее вещество

chemical projectile — химический снаряд

chemical war gases — химическое оружие; боевые отравляющие вещества

chemical warfare service — военно-химическая служба

chemical phase — химическая фаза

chemical score — химический скор

chemical depot — химический склад

chemical odour — химический запах

chemical plant — химический завод

5. a спец. противохимический

chemical defence — противохимическая защита

chemical protection — противохимическая защита

chemical sufety clothing — защитный противохимический костюм

Синонимический ряд:

containing alkali (adj.) alkali; alkaline; antacid; basic; caustic; containing alkali; having a high ph; metal oxide; salty

ultimate

ultimate ['ʌltɪmət]

1 adjective

(a) (eventual, final → ambition, power, responsibility) ultime; (→ cost, destination, objective) ultime, final; (→ solution, decision, answer) final, définitif;

∎ her tragic illness and ultimate death deprived the world of a great artist sa mort survenue à l'issue d'une tragique maladie a privé le monde d'une grande artiste;

∎ I believe in the party's ultimate victory je crois que le parti finira par gagner;

∎ they regard nuclear weapons as the ultimate deterrent ils considèrent les armes nucléaires comme l'ultime moyen de dissuasion

(b) (basic, fundamental → cause) fondamental, premier; (→ truth) fondamental, élémentaire;

∎ the ultimate constituents of matter les constituants fondamentaux de la matière;

∎ the ultimate meaning of life le sens fondamental de la vie

(c) (extreme, supreme → authority, insult) suprême; (→ cruelty, stupidity) suprême, extrême;

∎ the ultimate double-glazing le meilleur double vitrage;

∎ it's their idea of the ultimate holiday c'est leur conception des vacances idéales;

∎ the ultimate sound system la meilleure sono qui soit;

∎ the ultimate sacrifice le sacrifice suprême;

∎ familiar he really is the ultimate incompetent! plus incompétent que lui tu meurs!

(d) (furthest) le plus éloigné;

∎ the ultimate origins of mankind les origines premières de l'homme

2 noun

comble m, summum m;

∎ the ultimate in comfort le summum du confort;

∎ the ultimate in hi-fi le nec plus ultra de la hi-fi

►► Marketing ultimate consumer utilisateur(trice) m,f final(e)

trainer

1. тренажер

2. учебно-тренировочный ЛА

3. инструктор

ab initio trainer

agricultural trainer

air-defence combat trainer

aircraft control trainer

avionic system trainer

basic trainer

cargo compartment trainer

cockpit trainer

cockpit familiarization trainer

cockpit procedures trainer

computer-based trainer

continuation trainer

dual-cockpit trainer

dual-pilot trainer

fighter trainer

fighting trainer

fully aerobatic trainer

heli-escape trainer

helicopter trainer

instrument flying trainer

intermediate trainer

lead-in trainer for the operational aircraft

Link trainer

low-level flight trainer

missile procedure trainer

mission trainer

multiengine trainer

operational flight trainer

part-task trainer

primary trainer

procedure trainer

refuelling trainer

sailplane trainer

task trainer

TTB trainer

turboprop powered trainer

two-seat trainer

underwater escape trainer

weapon system trainer

weapons tactics trainer

model

модель; образец; моделировать

0,16-scale model — модель в 0,16 натуральной величины

aircraft cockpit fog simulation model — модель для имитации условий тумана в кабине ЛА

air-tyred lunar rover model — модель лунохода на пневматических шинах

combat aircrew rescue simulation model — модель процесса спасения членов экипажа при повреждении ЛА в боевой обстановке

fixed-wing supersonic transport model — модель сверхзвукового транспортного самолёта с крылом неизменяемой геометрии

have... hours in model — иметь налёт... часов на данном типе (ЛА)

space shuttle booster model — модель [макет] разгонной ступени [ускорителя] челночного КЛА

space shuttle orbiter model — модель [макет] орбитальной ступени челночного КЛА

sting(-mounted, -supported) model — модель (установленная) на державке

v.g. model — модель [вариант] с изменяемой геометрией

— ablating model

— ablation model

— aerodynamic integration model

— aeroelastically model

— all-passenger model

— aluminum-reinforced epoxy model

— antenna positioning model

— basic layout model

— B-G-K model

— boilerplate model

— boosted reentry model

— breadboard model

— C model

— collision risk model

— cone-cylinder model

— cone-cylinder-cone model

— control line model

— development model

— domestic model

— drag model

— dummy model

— dynamically scaled model

— eddy-viscosity model

— elastic model

— erosion model

— evaluation model

— extended range model

— flow model

— flutter model

— flying model

— framework model

— free-fall model

— free-flight model

— free-flying model

— free-spinning model

— geometrically similar model

— gravitational model

— growth model

— gust model

— half-scale model

— half-span model

— helicopter drop model

— honeycomb model

— hypersonic model

— inertial model

— interaction model

— intercontinental model

— ionospheric model

— isotropic model

— jet interference model

— mobile model

— multivariable load model

— nonaxisymmetric model

— nonburning model

— one-fifth-scale model

— pre-certification model

— predictive model

— production prototype model

— program-controlled model

— reentry model

— remotely-controlled model

— remotely-piloted model

— rocket model

— rocket-boosted model

— rocket-powered model

— rocket-propelled model

— roughened model

— see-through model

— slender-wing model

— spinnable model

— spinning model

— structural model

— tailless model

— thermal decomposition model

— thermodynamic model

— thermoelastic model

— thrusted model

— T-tail model

— tunnel model

— turbulence intensity model

— two-equation model

— unmounted model

— vector plasma model

— vortex model

— wake-like model

— weapons evaluation model

— wind-tunnel model

— wing-body model

Nobel, Immanuel

SUBJECT AREA: Chemical technology, Mining and extraction technology, Weapons and armour

[br]

b. 1801 Gävle, Sweden

d. 3 September 1872 Stockholm, Sweden

[br]

Swedish inventor and industrialist, particularly noted for his work on mines and explosives.

[br]

The son of a barber-surgeon who deserted his family to serve in the Swedish army, Nobel showed little interest in academic pursuits as a child and was sent to sea at the age of 16, but jumped ship in Egypt and was eventually employed as an architect by the pasha. Returning to Sweden, he won a scholarship to the Stockholm School of Architecture, where he studied from 1821 to 1825 and was awarded a number of prizes. His interest then leaned towards mechanical matters and he transferred to the Stockholm School of Engineering. Designs for linen-finishing machines won him a prize there, and he also patented a means of transforming rotary into reciprocating movement. He then entered the real-estate business and was successful until a fire in 1833 destroyed his house and everything he owned. By this time he had married and had two sons, with a third, Alfred (of Nobel Prize fame; see Alfred Nobel), on the way. Moving to more modest quarters on the outskirts of Stockholm, Immanuel resumed his inventions, concentrating largely on India rubber, which he applied to surgical instruments and military equipment, including a rubber knapsack.

It was talk of plans to construct a canal at Suez that first excited his interest in explosives. He saw them as a means of making mining more efficient and began to experiment in his backyard. However, this made him unpopular with his neighbours, and the city authorities ordered him to cease his investigations. By this time he was deeply in debt and in 1837 moved to Finland, leaving his family in Stockholm. He hoped to interest the Russians in land and sea mines and, after some four years, succeeded in obtaining financial backing from the Ministry of War, enabling him to set up a foundry and arms factory in St Petersburg and to bring his family over. By 1850 he was clear of debt in Sweden and had begun to acquire a high reputation as an inventor and industrialist. His invention of the horned contact mine was to be the basic pattern of the sea mine for almost the next 100 years, but he also created and manufactured a central-heating system based on hot-water pipes. His three sons, Ludwig, Robert and Alfred, had now joined him in his business, but even so the outbreak of war with Britain and France in the Crimea placed severe pressures on him. The Russians looked to him to convert their navy from sail to steam, even though he had no experience in naval propulsion, but the aftermath of the Crimean War brought financial ruin once more to Immanuel. Amongst the reforms brought in by Tsar Alexander II was a reliance on imports to equip the armed forces, so all domestic arms contracts were abruptly cancelled, including those being undertaken by Nobel. Unable to raise money from the banks, Immanuel was forced to declare himself bankrupt and leave Russia for his native Sweden. Nobel then reverted to his study of explosives, particularly of how to adapt the then highly unstable nitroglycerine, which had first been developed by Ascanio Sobrero in 1847, for blasting and mining. Nobel believed that this could be done by mixing it with gunpowder, but could not establish the right proportions. His son Alfred pursued the matter semi-independently and eventually evolved the principle of the primary charge (and through it created the blasting cap), having taken out a patent for a nitroglycerine product in his own name; the eventual result of this was called dynamite. Father and son eventually fell out over Alfred's independent line, but worse was to follow. In September 1864 Immanuel's youngest son, Oscar, then studying chemistry at Uppsala University, was killed in an explosion in Alfred's laboratory: Immanuel suffered a stroke, but this only temporarily incapacitated him, and he continued to put forward new ideas. These included making timber a more flexible material through gluing crossed veneers under pressure and bending waste timber under steam, a concept which eventually came to fruition in the form of plywood.

In 1868 Immanuel and Alfred were jointly awarded the prestigious Letterstedt Prize for their work on explosives, but Alfred never for-gave his father for retaining the medal without offering it to him.

[br]

Principal Honours and Distinctions

Imperial Gold Medal (Russia) 1853. Swedish Academy of Science Letterstedt Prize (jointly with son Alfred) 1868.

Bibliography

Immanuel Nobel produced a short handwritten account of his early life 1813–37, which is now in the possession of one of his descendants. He also had published three short books during the last decade of his life— Cheap Defence of the Country's Roads (on land mines), Cheap Defence of the Archipelagos (on sea mines), and Proposal for the Country's Defence (1871)—as well as his pamphlet (1870) on making wood a more physically flexible product.

Further Reading

No biographies of Immanuel Nobel exist, but his life is detailed in a number of books on his son Alfred.

CM

BWP

BWP, basic war plan

основной план военных действий (ВМС)

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BWP, binary weapons program

программа разработки бинарного оружия