-
81 hammer
молот; молоток; эл. молоточек (прерывателя); II стучать (о машине); вбивать; вколачивать; ударять; бить; ковать; чеканить- hammer for carpenter with square head and nail slot - hammer forging - hammer-harden - hammer-in - hammer mill - hammer out - hammer test - hammer with round attachment - adjustable speed and built-in power regulator - air hammer - ball hammer - ball-face hammer - board-drop hammer - breaking hammer - cement-chipping hammer - chipping hammer - coal hammer - compressed-air hammer - cross-peen hammer - cup-shaped hammer - drifter hammer - foot hammer - front hammer - gong hammer - granulating hammer - helve hammer - hydraulic hammer - jack hammer - jump hammer - lift hammer - negative water hammer - plane-bottom hammer - planishing hammer - pneumatic hammer - power hammer - riveting hammer - rust hammer - scale hammer - scaling hammer - set hammer - shaft hammer - sledge hammer - slide hammer - snap hammer - spalling hammer - steam hammer - stone hammer - tail hammer - treadle hammer - water hammer -
82 Arnold, Aza
SUBJECT AREA: Textiles[br]b. 4 October 1788 Smithfield, Pawtucket, Rhode Island, USAd. 1865 Washington, DC, USA[br]American textile machinist who applied the differential motion to roving frames, solving the problem of winding on the delicate cotton rovings.[br]He was the son of Benjamin and Isabel Arnold, but his mother died when he was 2 years old and after his father's second marriage he was largely left to look after himself. After attending the village school he learnt the trade of a carpenter, and following this he became a machinist. He entered the employment of Samuel Slater, but left after a few years to engage in the unsuccessful manufacture of woollen blankets. He became involved in an engineering shop, where he devised a machine for taking wool off a carding machine and making it into endless slivers or rovings for spinning. He then became associated with a cotton-spinning mill, which led to his most important invention. The carded cotton sliver had to be reduced in thickness before it could be spun on the final machines such as the mule or the waterframe. The roving, as the mass of cotton fibres was called at this stage, was thin and very delicate because it could not be twisted to give strength, as this would not allow it to be drawn out again during the next stage. In order to wind the roving on to bobbins, the speed of the bobbin had to be just right but the diameter of the bobbin increased as it was filled. Obtaining the correct reduction in speed as the circumference increased was partially solved by the use of double-coned pulleys, but the driving belt was liable to slip owing to the power that had to be transmitted.The final solution to the problem came with the introduction of the differential drive with bevel gears or a sun-and-planet motion. Arnold had invented this compound motion in 1818 but did not think of applying it to the roving frame until 1820. It combined the direct-gearing drive from the main shaft of the machine with that from the cone-drum drive so that the latter only provided the difference between flyer and bobbin speeds, which meant that most of the transmission power was taken away from the belt. The patent for this invention was issued to Arnold on 23 January 1823 and was soon copied in Britain by Henry Houldsworth, although J.Green of Mansfield may have originated it independendy in the same year. Arnold's patent was widely infringed in America and he sued the Proprietors of the Locks and Canals, machine makers for the Lowell manufacturers, for $30,000, eventually receiving $3,500 compensation. Arnold had his own machine shop but he gave it up in 1838 and moved the Philadelphia, where he operated the Mulhausen Print Works. Around 1850 he went to Washington, DC, and became a patent attorney, remaining as such until his death. On 24 June 1856 he was granted patent for a self-setting and self-raking saw for sawing machines.[br]Bibliography28 June 1856, US patent no. 15,163 (self-setting and self-raking saw for sawing machines).Further ReadingDictionary of American Biography, Vol. 1.W.English, 1969, The Textile Industry, London (a description of the principles of the differential gear applied to the roving frame).D.J.Jeremy, 1981, Transatlantic Industrial Revolution. The Diffusion of Textile Technologies Between Britain and America, 1790–1830, Oxford (a discussion of the introduction and spread of Arnold's gear).RLH -
83 Bigelow, Erastus Brigham
SUBJECT AREA: Textiles[br]b. 2 April 1814 West Boyleston, Massachusetts, USAd. 6 December 1879 USA[br]American inventor of power looms for making lace and many types of carpets.[br]Bigelow was born in West Boyleston, Massachusetts, where his father struggled as a farmer, wheelwright, and chairmaker. Before he was 20, Bigelow had many different jobs, among them farm labourer, clerk, violin player and cotton-mill employee. In 1830, he went to Leicester Academy, Massachusetts, but he could not afford to go on to Harvard. He sought work in Boston, New York and elsewhere, making various inventions.The most important of his early inventions was the power loom of 1837 for making coach lace. This loom contained all the essential features of his carpet looms, which he developed and patented two years later. He formed the Clinton Company for manufacturing carpets at Leicester, Massachusetts, but the factory became so large that its name was adopted for the town. The next twenty years saw various mechanical discoveries, while his range of looms was extended to cover Brussels, Wilton, tapestry and velvet carpets. Bigelow has been justly described as the originator of every fundamental device in these machines, which were amongst the largest textile machines of their time. The automatic insertion and withdrawal of strong wires with looped ends was the means employed to raise the looped pile of the Brussels carpets, while thinner wires with a knife blade at the end raised and then severed the loops to create the rich Wilton pile. At the Great Exhibition in 1851, it was declared that his looms made better carpets than any from hand looms. He also developed other looms for special materials.He became a noted American economist, writing two books about tariff problems, advocating that the United States should not abandon its protectionist policies. In 1860 he was narrowly defeated in a Congress election. The following year he was a member of the committee that established the Massachusetts Institute of Technology.[br]Further ReadingNational Cyclopedia of American Biography III (the standard account of his life). F.H.Sawyer, 1927, Clinton Item (provides a broad background to his life).C.Singer (ed.), 1958, A History of Technology, Vol. V, Oxford: Clarendon Press (describes Bigelow's inventions).RLHBiographical history of technology > Bigelow, Erastus Brigham
-
84 Darby, Abraham
SUBJECT AREA: Metallurgy[br]b. 1678 near Dudley, Worcestershire, Englandd. 5 May 1717 Madely Court, Coalbrookdale, Shropshire, England[br]English ironmaster, inventor of the coke smelting of iron ore.[br]Darby's father, John, was a farmer who also worked a small forge to produce nails and other ironware needed on the farm. He was brought up in the Society of Friends, or Quakers, and this community remained important throughout his personal and working life. Darby was apprenticed to Jonathan Freeth, a malt-mill maker in Birmingham, and on completion of his apprenticeship in 1699 he took up the trade himself in Bristol. Probably in 1704, he visited Holland to study the casting of brass pots and returned to Bristol with some Dutch workers, setting up a brassworks at Baptist Mills in partnership with others. He tried substituting cast iron for brass in his castings, without success at first, but in 1707 he was granted a patent, "A new way of casting iron pots and other pot-bellied ware in sand without loam or clay". However, his business associates were unwilling to risk further funds in the experiments, so he withdrew his share of the capital and moved to Coalbrookdale in Shropshire. There, iron ore, coal, water-power and transport lay close at hand. He took a lease on an old furnace and began experimenting. The shortage and expense of charcoal, and his knowledge of the use of coke in malting, may well have led him to try using coke to smelt iron ore. The furnace was brought into blast in 1709 and records show that in the same year it was regularly producing iron, using coke instead of charcoal. The process seems to have been operating successfully by 1711 in the production of cast-iron pots and kettles, with some pig-iron destined for Bristol. Darby prospered at Coalbrookdale, employing coke smelting with consistent success, and he sought to extend his activities in the neighbourhood and in other parts of the country. However, ill health prevented him from pursuing these ventures with his previous energy. Coke smelting spread slowly in England and the continent of Europe, but without Darby's technological breakthrough the ever-increasing demand for iron for structures and machines during the Industrial Revolution simply could not have been met; it was thus an essential component of the technological progress that was to come.Darby's eldest son, Abraham II (1711–63), entered the Coalbrookdale Company partnership in 1734 and largely assumed control of the technical side of managing the furnaces and foundry. He made a number of improvements, notably the installation of a steam engine in 1742 to pump water to an upper level in order to achieve a steady source of water-power to operate the bellows supplying the blast furnaces. When he built the Ketley and Horsehay furnaces in 1755 and 1756, these too were provided with steam engines. Abraham II's son, Abraham III (1750–89), in turn, took over the management of the Coalbrookdale works in 1768 and devoted himself to improving and extending the business. His most notable achievement was the design and construction of the famous Iron Bridge over the river Severn, the world's first iron bridge. The bridge members were cast at Coalbrookdale and the structure was erected during 1779, with a span of 100 ft (30 m) and height above the river of 40 ft (12 m). The bridge still stands, and remains a tribute to the skill and judgement of Darby and his workers.[br]Further ReadingA.Raistrick, 1989, Dynasty of Iron Founders, 2nd edn, Ironbridge Gorge Museum Trust (the best source for the lives of the Darbys and the work of the company).H.R.Schubert, 1957, History of the British Iron and Steel Industry AD 430 to AD 1775, London: Routledge \& Kegan Paul.LRD -
85 Houldsworth, Henry
SUBJECT AREA: Textiles[br]b. 1797 Manchester (?), Englandd. 1868 Manchester (?), England[br]English cotton spinner who introduced the differential gear to roving frames in Britain.[br]There are two claimants for the person who originated the differential gear as applied to roving frames: one is J.Green, a tinsmith of Mansfield, in his patent of 1823; the other is Arnold, who had applied it in America and patented it in early 1823. This latter was the source for Houldsworth's patent in 1826. It seems that Arnold's gearing was secretly communicated to Houldsworth by Charles Richmond, possibly when Houldsworth visited the United States in 1822–3, but more probably in 1825 when Richmond went to England. In return, Richmond received information about parts of a cylinder printing machine from Houldsworth. In the working of the roving frame, as the rovings were wound onto their bobbins and the diameter of the bobbins increased, the bobbin speed had to be reduced to keep the winding on at the same speed while the flyers and drawing rollers had to maintain their initial speed. Although this could be achieved by moving the driving belt along coned pulleys, this method did not provide enough power and slippage occurred. The differential gear combined the direct drive from the main shaft of the roving frame with that from the cone drive, so that only the latter provided the dif-ference between flyer and bobbin speeds, i.e. the winding speeds, thus taking away most of the power from that belt. Henry Houldsworth Senior (1774–1853) was living in Manchester when his son Henry was born, but by 1800 had moved to Glasgow. He built several mills, including a massive one at Anderston, Scotland, in which a Boulton \& Watt steam engine was installed. Henry Houldsworth Junior was probably back in Manchester by 1826, where he was to become an influential cotton spinner as chief partner in his mills, which he moved out to Reddish in 1863–5. He was also a prominent landowner in Cheetham. When William Fairbairn was considering establishing the Association for the Prevention of Steam Boiler Explosions in 1854, he wanted to find an influential manufacturer and mill-owner and he made a happy choice when he turned to Henry Houldsworth for assistance.[br]Bibliography1826, British patent no. 5,316 (differential gear for roving frames).Further ReadingDetails about Henry Houldsworth Junior are very sparse. The best account of his acquisition of the differential gear is given by D.J.Jeremy, 1981, Transatlantic Industrial Revolution. The Diffusion of Textile Technologies Between Britain and America, 1790–1830, Oxford.W.English, 1969, The Textile Industry, London (an explanation of the mechanisms of the roving frame).W.Pole, 1877, The Life of Sir William Fairbairn, Bart., London (provides an account of the beginning of the Manchester Steam Users' Association for the Prevention of Steam-boiler Explosions).RLH -
86 Savery, Thomas
SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering[br]b. c. 1650 probably Shilston, near Modbury, Devonshire, Englandd. c. 15 May 1715 London, England[br]English inventor of a partially successful steam-driven pump for raising water.[br]Little is known of the early years of Savery's life and no trace has been found that he served in the Army, so the title "Captain" is thought to refer to some mining appointment, probably in the West of England. He may have been involved in the Glorious Revolution of 1688, for later he was well known to William of Orange. From 1705 to 1714 he was Treasurer for Sick and Wounded Seamen, and in 1714 he was appointed Surveyor of the Water Works at Hampton Court, a post he held until his death the following year. He was interested in mechanical devices; amongst his early contrivances was a clock.He was the most prolific inventor of his day, applying for seven patents, including one in 1649, for polishing plate glass which may have been used. His idea for 1697 for propelling ships with paddle-wheels driven by a capstan was a failure, although regarded highly by the King, and was published in his first book, Navigation Improved (1698). He tried to patent a new type of floating mill in 1707, and an idea in 1710 for baking sea coal or other fuel in an oven to make it clean and pure.His most famous invention, however, was the one patented in 1698 "for raising water by the impellent force of fire" that Savery said would drain mines or low-lying land, raise water to supply towns or houses, and provide a source of water for turning mills through a water-wheel. Basically it consisted of a receiver which was first filled with steam and then cooled to create a vacuum by having water poured over the outside. The water to be pumped was drawn into the receiver from a lower sump, and then high-pressure steam was readmitted to force the water up a pipe to a higher level. It was demonstrated to the King and the Royal Society and achieved some success, for a few were installed in the London area and a manufactory set up at Salisbury Court in London. He published a book, The Miner's Friend, about his engine in 1702, but although he made considerable improvements, due to excessive fuel consumption and materials which could not withstand the steam pressures involved, no engines were installed in mines as Savery had hoped. His patent was extended in 1699 until 1733 so that it covered the atmospheric engine of Thomas Newcomen who was forced to join Savery and his other partners to construct this much more practical engine.[br]Principal Honours and DistinctionsFRS 1706.Bibliography1698, Navigation Improved.1702, The Miner's Friend.Further ReadingThe entry in the Dictionary of National Biography (1897, Vol. L, London: Smith Elder \& Co.) has been partially superseded by more recent research. The Transactions of the Newcomen Society contain various papers; for example, Rhys Jenkins, 1922–3, "Savery, Newcomen and the early history of the steam engine", Vol. 3; A.Stowers, 1961–2, "Thomas Newcomen's first steam engine 250 years ago and the initial development of steam power", Vol. 34; A.Smith, 1977–8, "Steam and the city: the committee of proprietors of the invention for raising water by fire", 1715–1735, Vol. 49; and J.S.P.Buckland, 1977–8, "Thomas Savery, his steam engine workshop of 1702", Vol. 49. Brief accounts may be found in H.W. Dickinson, 1938, A Short History of the Steam Engine, Cambridge University Press, and R.L. Hills, 1989, Power from Steam. A History of the Stationary Steam Engine, Cambridge University Press. There is another biography in T.I. Williams (ed.), 1969, A Biographical Dictionary of Scientists, London: A. \& C.Black.RLH -
87 Wasborough, Matthew
SUBJECT AREA: Steam and internal combustion engines[br]b. 1753 Bristol, Englandd. 21 October 1781 Bristol, England[br]English patentee of an application of the flywheel to create a rotative steam engine.[br]A single-cylinder atmospheric steam engine had a power stroke only when the piston descended the cylinder: a means had to be found of returning the piston to its starting position. For rotative engines, this was partially solved by the patent of Matthew Wasborough in 1779. His father was a partner in a Bristol brass-founding and clockmaking business in Narrow Wine Street where he was joined by his son. Wasborough proposed to use some form of ratchet gear to effect the rotary motion and added a flywheel, the first time one was used in a steam engine, "in order to render the motion more regular and uniform". He installed one engine to drive the lathes in the Bristol works and another at James Pickard's flour mill at Snow Hill, Birmingham, where Pickard applied his recently patented crank to it. It was this Wasborough-Pickard engine which posed a threat to Boulton \& Watt trying to develop a rotative engine, for Wasborough built several engines for cornmills in Bristol, woollen mills in Gloucestershire and a block factory at Southampton before his early death. Matthew Boulton was told that Wasborough was "so intent upon the study of engines as to bring a fever on his brain and he dyed in consequence thereof…. How dangerous it is for a man to wade out of his depth" (Jenkins 1936:106).[br]Bibliography1779, British patent no. 1,213 (rotative engine with flywheel).Further ReadingJ.Tann, 1978–9, "Makers of improved Newcomen engines in the late 18th century, and R.A.Buchanan", 1978–9, "Steam and the engineering community in the eighteenth century", Transactions of the Newcomen Society 50 ("Thomas Newcomen. A commemorative symposium") (both papers discuss Wasborough's engines).R.L.Hills, 1989, Power from Steam. A History of the Stationary Steam Engine, Cambridge University Press (examines his patent).R.Jenkins (ed.), 1936, Collected Papers, 106 (for Matthew Boulton's letter of 30 October 1781).RLH -
88 line
- электрическая линия
- шина (в электротехнике)
- силовая магнитная линия
- проводить линию
- провод
- облицовывать
- обивать (чем-либо) изнутри
- линия транспорта
- линия спуска
- линия коммуникаций
- линия вектора
- линия (связи)
- линия (передачи данных)
- линия (в фигурном катании)
- линия
- кривая на графике
- кривая (на диаграмме)
- канал (аппаратуры)
- агрегат (металлургия)
агрегат
1. Сборочная ед., обладающая полной взаимозаменяемостью, возможностью сборки отдельно от других составных частей или изделия в целом и способностью выполнять определенные функции в изделии или самостоятельно.
2. Механическое соединение неск. машин, станов или устройств, работающих в комплексе (напр., многоклетевой прокатный стан).
3. См. Металлургический агрегат.
[ http://metaltrade.ru/abc/a.htm]Тематики
EN
канал (аппаратуры)
—
[ http://slovarionline.ru/anglo_russkiy_slovar_neftegazovoy_promyishlennosti/]Тематики
EN
кривая (на диаграмме)
—
[ http://slovarionline.ru/anglo_russkiy_slovar_neftegazovoy_promyishlennosti/]Тематики
EN
кривая на графике
—
[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]Тематики
EN
- line
- L
линия
-
[IEV number 151-12-27]EN
line
device connecting two points for the purpose of conveying electromagnetic energy between them
NOTE 1 – Electromagnetic energy may be extracted from or supplied to a line at an intermediate point.
NOTE 2 – Examples of lines are two-wire line, polyphase line, coaxial line, waveguide.
Source: 466-01-01 MOD, 601-03-03 MOD
[IEV number 151-12-27]FR
ligne, f
dispositif reliant deux points et destiné à transmettre de l'énergie électromagnétique entre eux
NOTE 1 – De l'énergie électromagnétique peut être extraite d'une ligne ou lui être fournie en un point intermédiaire.
NOTE 2 – Des exemples de lignes sont une ligne bifilaire, une ligne polyphasée, une ligne coaxiale, un guide d'ondes.
Source: 466-01-01 MOD, 601-03-03 MOD
[IEV number 151-12-27]EN
DE
FR
линия
Позиция фигуриста относительно поверхности льда.
[Департамент лингвистических услуг Оргкомитета «Сочи 2014». Глоссарий терминов]EN
line
Skater's position relative to the ice surface.
[Департамент лингвистических услуг Оргкомитета «Сочи 2014». Глоссарий терминов]Тематики
EN
линия (передачи данных)
—
[Е.С.Алексеев, А.А.Мячев. Англо-русский толковый словарь по системотехнике ЭВМ. Москва 1993]Тематики
EN
линия вектора
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
line
Term used in GIS technologies in the vector type of internal data organization: spatial data are divided into point, line and polygon types. In most cases, point entities (nodes) are specified directly as coordinate pairs, with lines (arcs or edges) represented as chains of points. Regions are similarly defined in terms of the lines which form their boundaries. Some vector GIS store information in the form of points, line segments and point pairs; others maintain closed lists of points defining polygon regions. Vector structures are especially suited to storing definitions of spatial objects for which sharp boundaries exist or can be imposed. (Source: YOUNG)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
линия спуска
Точный путь или оптимальная траектория спуска саней по желобу.
[Департамент лингвистических услуг Оргкомитета «Сочи 2014». Глоссарий терминов]EN
line
Precise path or the optimum trajectory of the sled.
[Департамент лингвистических услуг Оргкомитета «Сочи 2014». Глоссарий терминов]Тематики
- санный спорт, бобслей, скелетон
EN
линия транспорта
—
[ http://slovarionline.ru/anglo_russkiy_slovar_neftegazovoy_promyishlennosti/]Тематики
EN
обивать (чем-либо) изнутри
—
[ http://slovarionline.ru/anglo_russkiy_slovar_neftegazovoy_promyishlennosti/]Тематики
EN
облицовывать
футеровать (топку)
—
[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]Тематики
Синонимы
EN
провод
-
[IEV number 151-12-28]EN
wire
flexible cylindrical conductor, with or without an insulating covering, the length of which is large with respect to its cross-sectional dimensions
NOTE – The cross-section of a wire may have any shape, but the term "wire" is not generally used for ribbons or tapes.
[IEV number 151-12-28]FR
fil, m
conducteur cylindrique flexible, avec ou sans revêtement isolant, dont la longueur est grande par rapport aux dimensions de la section droite
NOTE – La section droite d'un fil peut avoir une forme quelconque, mais le terme "fil" n'est généralement pas employé pour une bande ou un ruban.
[IEV number 151-12-28]Тематики
- кабели, провода...
Действия
EN
DE
FR
силовая магнитная линия
—
[Я.Н.Лугинский, М.С.Фези-Жилинская, Ю.С.Кабиров. Англо-русский словарь по электротехнике и электроэнергетике, Москва, 1999 г.]Тематики
- электротехника, основные понятия
EN
шина
Проводник с низким сопротивлением, к которому можно подсоединить несколько отдельных электрических цепей.
Примечание — Термин «шина» не включает в себя геометрическую форму, габариты или размеры проводника.
[ ГОСТ Р 51321. 1-2000 ( МЭК 60439-1-92)]
[ ГОСТ Р МЭК 61439.1-2013]
шина
Конструктивный элемент низковольтного комплектного устройства (НКУ).
Такой конструктивный элемент предназначен для того, чтобы к нему можно было легко присоединить отдельные электрические цепи (другие шины, отдельные проводники). Такие шины могут иметь различную конструкцию, геометрическую форму и размеры.
[Интент]
шинопроводшина
Медная, алюминиевая, реже стальная полоса, служащая для присоединения кабелей электрогенераторов, трансформаторов и т.д. к проводам питающей сети
[Терминологический словарь по строительству на 12 языках (ВНИИИС Госстроя СССР)]
общаяшина
-
[IEV number 151-12-30]
шина
-
[Я.Н.Лугинский, М.С.Фези-Жилинская, Ю.С.Кабиров. Англо-русский словарь по электротехнике и электроэнергетике, Москва]EN
busbar
low-impedance conductor to which several electric circuits can be connected at separate points
NOTE – In many cases, the busbar consists of a bar.
[IEV number 151-12-30]
busbar
An electrical conductor that makes a common connection between several circuits. Sometimes, electrical wire cannot accommodate high-current applications, and electricity must be conducted using a more substantial busbar — a thick bar of solid metal (usually copper or aluminum). Busbars are uninsulated, but are physically supported by insulators. They are used in electrical substations to connect incoming and outgoing transmission lines and transformers; in a power plant to connect the generator and the main transformers; in industry, to feed large amounts of electricity to equipment used in the aluminum smelting process, for example, or to distribute electricity in large buildings
[ABB. Glossary of technical terms. 2010]FR
barre omnibus, f
2. Проводник прямоугольного сечения из меди, предназначенный для электротехнических целей
conducteur de faible impédance auquel peuvent être reliés plusieurs circuits électriques en des points séparés
NOTE – Dans de nombreux cas, une barre omnibus est constituée d’une barre.
[IEV number 151-12-30]
(см. ГОСТ 434-78).
Поставляется в бухтах, а также в полосах длиной не менее 2,5 м; По существу, это просто проволока прямоугольного сечения. В указанном ГОСТе и в технической документации, в которой она применяется, обязательно указываются размеры этой проволоки. Например, "Шина ШММ 8,00х40,00 ГОСТ 434-78"
шина
Пруток прямоугольного сечения, применяемый в электротехнике в качестве проводника тока, изготовляемый прессованием или волочением.
[ ГОСТ 25501-82]Тематики
- НКУ (шкафы, пульты,...)
- заготовки и полуфабрикаты в металлургии
- кабели, провода...
Действия
- расположение шин «на ребро» [ПУЭ]
- расположение шин «плашмя» [ПУЭ]
Сопутствующие термины
- гибкая шина
- жесткая шина [ПУЭ]
- изолированные шины [ПУЭ]
- круглые шины [ПУЭ]
- неизолированные шины [ПУЭ]
- обходные шины [ПУЭ]
- профильные шины [ПУЭ]
- секционные шины [ПУЭ]
- фазная шина [ ГОСТ Р 51321.1-2000]
- четырехполосные шины с расположением полос по сторонам квадрата ("полый пакет") [ПУЭ]
- шина PEN-проводника
- шина для присоединения защитных проводников
- шина нулевого защитного проводника
- шина фазы А (B, C) [ПУЭ]
- шины однофазного тока [ПУЭ]
- шины прямоугольного (круглого, трубчатого, коробчатого) сечения [ПУЭ]
- шины трехфазного тока [ПУЭ]
EN
DE
FR
электрическая линия
Совокупность проводов, изоляторов и несущих конструкций для передачи электрической энергии между двумя пунктами электрической сети
[ОСТ 45.55-99]Тематики
Синонимы
EN
3.1.11 линия коммуникаций (line): Линия электропередачи или телекоммуникационная линия, подведенные к защищаемому зданию (сооружению).
Источник: ГОСТ Р МЭК 62305-2-2010: Менеджмент риска. Защита от молнии. Часть 2. Оценка риска оригинал документа
3.23 линия коммуникаций (line): Линия электропередачи или телекоммуникационная линия, подведенные к защищаемому зданию (сооружению).
Источник: ГОСТ Р МЭК 62305-1-2010: Менеджмент риска. Защита от молнии. Часть 1. Общие принципы оригинал документа
Англо-русский словарь нормативно-технической терминологии > line
-
89 рабочий
1. муж.;
скл. как прил. worker (особенно промышленный) ;
workman;
working man;
hand, labourer;
мн. production workers (в отличие от служащих) дорожный рабочий ≈ roadman путевой рабочий ≈ platelayer, surface-man ж.-д. заводской рабочий ≈ mill-hand неквалифицированный рабочий ≈ labourer строительный рабочий ≈ house-builder сельскохозяйственный рабочий ≈ farm-hand законтрактованный рабочий ≈ contracted worker
2. прил.
1) (производящий работу) working, work
2) workers', working;
labo(u) r, work;
working-class недостаток рабочих рук ≈ dearth of workmen рабочий класс ≈ working class рабочий день ≈ working day, workday сокращенный рабочий день ≈ half day неполный рабочий день ≈ underemployment рабочая сила ≈ man power;
labo(u) r (force)рабочий:
1. n. worker
2. a. working worker's -
90 board
1) доска англ. (шириной до 10 см и толщиной до 5 см); амер. ( шириной до 20 см и толщиной до 5 см)2) мн. ч. пиломатериал ( обычно из хвойных пород)3) картон (массой свыше 250 г/см2)4) плита; щит12) электрон. плата13) мор. возд. борт14) осуществлять ( производить) посадку, садиться (на судно, самолёт)15) переплётная крышка; сторонка ( переплётной крышки)•to assemble board — монтировать( печатную) плату;to calender board — каландрировать картон;to cast board — отливать картон;to dress board in planer — обрабатывать доску по поверхности, строгать доску;to glaze board — глянцевать картон;to mold board — калевать доску;to paste board — склеивать листы картона;to run board in ( through) planer — обрабатывать доску по поверхности, строгать доску;to run board through molder — калевать доску;to shiplap board — строгать доску на фальц;to size board — проклеивать картон;to surface board — обрабатывать доску по поверхности, строгать доску-
access board
-
additive board
-
asbestos-cement board
-
asphalt board
-
axially fluted board
-
back board
-
baffle board
-
bare board
-
barge board
-
barrier board
-
batter board
-
bench board
-
bilge board
-
binder board
-
bleached board
-
bleached sulfate board
-
bluff board
-
bogus board
-
boning board
-
bottom board
-
box board
-
bread board
-
bridging board
-
Bristol board
-
bulletin board
-
cane fiber board
-
cant board
-
caption board
-
cement-asbestos board
-
center board
-
center-beaded board
-
central control board
-
cheek boards
-
chip board
-
circuit board
-
clapper boards
-
comb board
-
combined board
-
composite board
-
control board
-
cordless board
-
corrugated asbestos-cement board
-
corrugated board
-
corrugated plastic board
-
cover board
-
CPU board
-
crawling board
-
cross-corrugated board
-
cutout board
-
dagger board
-
danger board
-
dash board
-
data board
-
delivery board
-
densely populated board
-
digital board
-
distant-warning board
-
distribution board
-
double-double face corrugated board
-
double-face corrugated board
-
double-height board
-
double-sided board
-
double-wall corrugated board
-
drafting board
-
draining board
-
drain board
-
drawing board
-
duplex board
-
echo board
-
edged board
-
elbow board
-
elevating board
-
end board
-
end boards
-
evaluation board
-
expansion board
-
extension board
-
fascia board
-
fat board
-
feather-edged board
-
feather-edge board
-
feed board
-
fiber board
-
fiddle board
-
filler board
-
fine-line board
-
finger board
-
fitting board
-
flight progress board
-
floor board
-
floor boards
-
fluted board
-
folder register board
-
food board
-
fourble board
-
fuse board
-
gable board
-
gage board
-
gangway board
-
glass-epoxy board
-
gradient board
-
gravel board
-
grease-resistant board
-
guard board
-
gypsum board
-
hard board
-
hard-sized board
-
hex-width board
-
high-density board
-
hybrid-circuit board
-
hybrid board
-
illuminated indicator board
-
illustration board
-
impregnated board
-
in-and-out board
-
input-output board
-
instrument board
-
jack board
-
junction board
-
known-good board
-
kraft-lined board
-
lacing board
-
laminated printed circuit board
-
layer board
-
lazy board
-
lear board
-
lens board
-
leveling board
-
light board
-
limber board
-
load board
-
loaded board
-
loom board
-
louver board
-
manger board
-
manila board
-
manilla board
-
matched boards
-
match boards
-
matrix board
-
memory board
-
meter board
-
mill-lined board
-
mixed straw board
-
module board
-
moisture-barrier board
-
mold board
-
molded bead board
-
molded board
-
molded pulp board
-
molding board
-
moldproof board
-
monkey board
-
mother board
-
mottled white board
-
multifunction board
-
multilayer interconnection board
-
naked board
-
navigation lights board
-
nontest board
-
notch board
-
number board
-
odd-side board
-
one-sided board
-
otter board
-
panel board
-
particle board
-
patch board
-
pattern board
-
peg board
-
perforated board
-
pilot-balloon plotting board
-
pin board
-
pipe racking board
-
pit boards
-
plain board
-
plotting board
-
plug board
-
plug-in board
-
poling board
-
poppet board
-
populated board
-
power-ground board
-
printed-circuit board
-
proofing board
-
propulsion control board
-
prototyping board
-
quard-height board
-
race board
-
racking board
-
raw printed circuit board
-
rigid-when-wet corrugated board
-
rod board
-
rough board
-
route card board
-
run board
-
saddle board
-
saddleback board
-
sarking boards
-
scaffold board
-
scum board
-
sheet-lined board
-
side boards
-
sign board
-
signal board
-
single-face corrugated board
-
single-sided board
-
single-wall corrugated board
-
skid board
-
skirt board
-
skirting board
-
slab board
-
sleeve board
-
sluice board
-
snow board
-
sound board
-
spacing board
-
spinning board
-
splash board
-
spot board
-
square board
-
squat board
-
stabbing board
-
stability board
-
stamping board
-
stock pile board
-
story board
-
strickle board
-
strip board
-
subtractive board
-
sulfate board
-
terminal board
-
test board
-
thole board
-
timing board
-
toll board
-
tonnage board
-
transom board
-
triple-wall corrugated board
-
trunk-line board
-
tubing board
-
turnover board
-
two-sided board
-
unbleached sulfate board
-
unedged board
-
unloaded board
-
valley board
-
varnished board
-
vat-lined board
-
verge board
-
video control board
-
visual control board
-
warning board
-
water-repellent board
-
water-resistant board
-
wax-treated board
-
weatherproof board
-
window board
-
wire-circuit board
-
wire board
-
wire-wrap board
-
zoned vacuum board -
91 condition
1) условие || обусловливать2) состояние || поддерживать (приводить в) определённое состояние3) положение; ситуация4) мн. ч. режим5) мн. ч. параметры7) выдерживать (напр. древесину)8) горн. подвергать обработке реагентами перед флотацией9) текст. испытывать степень влажности•conditions beyond the experience — условия ( полёта), выходящие за рамки опыта ( пилота);-
abnormal operating conditions
-
accident condition
-
actual operating conditions
-
added-value condition
-
adjoint boundary condition
-
adverse conditions
-
airworthy condition
-
alert condition
-
ambient conditions
-
anticipated operating conditions
-
application conditions
-
as-cast condition
-
as-deposited condition
-
as-drawn condition
-
as-extruded condition
-
as-forged condition
-
as-received condition
-
as-rolled condition
-
as-welded condition
-
asymmetrical conditions
-
asynchronous condition
-
atmospheric conditions
-
average operating conditions
-
balanced conditions
-
beet cutting conditions
-
boundary condition
-
breaking conditions
-
burning conditions
-
busy condition
-
characteristic condition
-
chemistry conditions
-
close conditions
-
cold furnace condition
-
compatibility condition
-
condition of indeterminacy
-
condition of static equilibrium
-
conjugating boundary condition
-
consistency condition
-
contact conditions
-
continuity condition
-
continuous conditions
-
controlled atmosphere conditions
-
controlled conditions
-
cost optimum condition
-
crack arrest conditions
-
crack extension conditions
-
crew physical condition
-
criticality conditions
-
current yield condition
-
cutting conditions
-
deadlock condition
-
debugging conditions
-
Derichlet's boundary condition
-
design conditions
-
dirt load condition
-
disabled condition
-
docking initial contact conditions
-
don't care condition
-
downstream stagnation conditions
-
dry-bulb conditions
-
dust condition
-
dyebath conditions
-
dynamic conditions
-
elliptic boundary condition
-
emergency condition
-
end fixity condition
-
energized condition
-
environmental conditions
-
equilibrium condition
-
equilibrium fuel burnup conditions
-
equilibrium xenon conditions
-
equipment-damaging condition
-
error condition
-
exception condition
-
existence condition
-
extreme conditions
-
fault conditions
-
faulty condition
-
field condition
-
firing conditions
-
flight conditions
-
flow conditions
-
fracture arrest conditions
-
fracture conditions
-
free surface conditions
-
freezing conditions
-
friction boundary conditions
-
frost buildup conditions
-
full power equilibrium xenon conditions
-
full-load conditions
-
fusing condition
-
gap condition
-
general yielding conditions
-
geological conditions
-
geometric boundary condition
-
geotechnical conditions
-
governing conditions
-
grinding conditions
-
grip conditions
-
hazardous weather conditions
-
high-resistance fault conditions
-
highresistance fault conditions
-
homogeneous boundary conditions
-
hostile conditions
-
humid condition
-
humidity conditions
-
hunting conditions
-
hygiene and sanitary conditions
-
hypobaric conditions
-
ice conditions
-
ice-bound conditions
-
icing conditions
-
impact conditions
-
induction condition
-
initial condition
-
in-lock condition
-
in-pile conditions
-
in-place conditions
-
in-plane boundary conditions
-
in-situ conditions
-
instrument meteorological conditions
-
jump conditions
-
karstic conditions
-
landing conditions
-
limiting condition
-
living conditions
-
load conditions
-
loading condition
-
local condition
-
local flow conditions
-
logical condition
-
lowest weather conditions
-
low-light-level conditions
-
machine conditions
-
machining conditions
-
making conditions
-
managed conditions
-
meteorological conditions
-
mill conditions
-
mining and geological conditions
-
mixed-boundary conditions
-
moding conditions
-
moisture conditions
-
motor load condition
-
mutual-testing conditions
-
natural boundary condition
-
natural conditions
-
near singing conditions
-
necessary condition
-
Newmann's boundary condition
-
Newton's boundary condition
-
no-load conditions
-
nominal conditions
-
normal conditions
-
off condition
-
off-design conditions
-
off-peak conditions
-
on condition
-
on-peak conditions
-
on-speed conditions
-
open-conductor operating conditions
-
operated condition
-
operating condition
-
operational conditions
-
operation conditions
-
out-of-balance condition
-
out-of-round condition
-
out-of-step conditions
-
out-of-tolerance conditions
-
overaged condition
-
overheating conditions
-
overload conditions
-
overpoled condition
-
overtempered condition
-
oxidizing conditions
-
peak load conditions
-
periodicity condition
-
permit conditions
-
petrophysical conditions
-
plane-strain condition
-
plant conditions
-
poor ground condition
-
postfault conditions
-
precipitation conditions
-
prefault conditions
-
process conditions
-
program stop condition
-
pulling condition
-
pulse conditions
-
pump-starving filter condition
-
quenched condition
-
quiescent condition
-
rated conditions
-
reaction conditions
-
ready condition
-
reductive conditions
-
reference friction conditions
-
refrigerating conditions
-
rigidity condition
-
roof conditions
-
room conditions
-
running conditions
-
runoff conditions
-
safety conditions
-
self-testing conditions
-
semistalled condition
-
service conditions
-
short-circuit conditions
-
side condition
-
simulated conditions
-
slipping condition
-
stability conditions
-
stabilized condition
-
stagnant conditions
-
standard condition
-
standby condition
-
starting conditions
-
start-oscillation condition
-
static conditions
-
static equilibrium conditions
-
steady-state condition
-
steady condition
-
storage conditions
-
stream conditions
-
strength condition
-
stress boundary conditions
-
stress condition
-
sufficient condition
-
surface condition
-
symmetrical conditions
-
takeoff conditions
-
technical conditions
-
temperature conditions
-
temper-brittle condition
-
terminal conditions
-
terrain undercarriage working condition
-
test conditions
-
test-bed conditions
-
thermal boundary conditions
-
thermal conditions
-
thermodynamic condition
-
traction-free boundary conditions
-
tractor underfoot condition
-
transient condition
-
trial conditions
-
turbulent conditions
-
turn-down conditions
-
unbalanced conditions
-
unballasted condition
-
under no-load conditions
-
unenergized condition
-
unmanned conditions
-
unpredictable conditions
-
unsteady-state condition
-
unsteady condition
-
upstream stagnation conditions
-
usage conditions
-
valve flow condition
-
viewing conditions
-
visibility reduced condition
-
visual meteorological conditions
-
wait condition
-
weather conditions
-
well production conditions
-
wet-bulb conditions
-
wind conditions
-
wing icing conditions
-
winter conditions
-
working condition
-
worst conditions
-
zero-wind condition -
92 house
1) дом2) цех; мастерская3) фирма; компания4) размещать; помещать; заключать во что-л.; вставлять в корпус; сажать (деталь, узел) в гнездо5) защищать, укрывать•-
acetylene generator house
-
air house
-
apartment house
-
bag house
-
barreling house
-
basement house
-
batch house
-
beater house
-
blending house
-
boiler house
-
bottom house
-
bridge house
-
broadcasting house
-
cast house
-
chart house
-
collar house
-
compounding house
-
compressor house
-
control house
-
cooling house
-
crude oil pumping house
-
crude pumping house
-
crusher house
-
detached houses
-
diesel-generator house
-
digester house
-
dog house
-
double house
-
drive house
-
duplex house
-
factory-made house
-
fan house
-
field house
-
filter house
-
fire-engine house
-
firing house
-
frame house
-
freight house
-
furnace house
-
gage house
-
gallery apartment house
-
gas house
-
gate house
-
group house
-
half-timbered house
-
hoist house
-
incineration house
-
kiln house
-
log house
-
mill house
-
mine air supply fan house
-
monitor house
-
movie house
-
mud house
-
photovoltaic-powered house
-
pilot house
-
postproduction house
-
power house
-
precast concrete house
-
prefabricated house
-
printing house
-
program production house
-
publishing house
-
pump house
-
quenching-pump house
-
receiving house
-
retort house
-
row houses
-
rundown house
-
screening house
-
semidetached house
-
software house
-
solar house
-
sound house
-
stock house
-
store house
-
studio house
-
system house
-
tail house
-
tank house
-
terrace house
-
tide house
-
tool house
-
turbine house
-
two-family house
-
valve house
-
video tape production house
-
wheel house -
93 roller
2) метал. валок3) метал. роликовая волока4) метал. подкатный ручей ( штампа)5) иголка ( подшипника)6) вальцовщик7) прокатчик10) валец ( гидравлического прыжка)11) мн. ч. роликовый конвейер, рольганг12) катковая опора15) полигр. матричный каландр16) пищ. вальцовый станок17) троллей ( подвесного пути)18) роллер, чаескручивающая машина19) бобинец (трала, сети)20) мор. вал21) мор. роульс•to apply by a roller — наносить валиком, наносить накаткой-
adjustable roller
-
aligning roller
-
backup roller
-
bail roller
-
barrel-type roller
-
bearing roller
-
beater roller
-
bed roller
-
belt roller
-
boss roller
-
breaker roller
-
bucket roller
-
cam roller
-
carbide guide roller
-
carrier roller
-
carry roller
-
carrying roller
-
casing rollers
-
charged rollers
-
clamping roller
-
combing roller
-
compensating roller
-
composition inking roller
-
contact rollers
-
conveyor roller
-
cross roller
-
cylindrical roller
-
dampening roller
-
dead rollers
-
delivery roller
-
diamond coated form roller
-
diamond form roller
-
discharge roller
-
distributing roller
-
door roller
-
doubled pad rollers
-
downstream roller
-
drawing-in roller
-
draw roller
-
drawing-off roller
-
drive roller
-
driven roller
-
drop feed roller
-
dual-drum roller
-
ductor roller
-
eddy roller
-
engraved roller
-
expansion rollers
-
feed roller
-
film-controlled roller
-
film-conveying roller
-
film-guide roller
-
flexible roller
-
folder backup rollers
-
folder pullout rollers
-
folding roller
-
form inking roller
-
forming rollers
-
fountain roller
-
godet roller
-
grooved roller
-
grooved table roller
-
ground roller
-
guide roller
-
hail roller
-
hold-down roller
-
holeless roller
-
homogeneous smooth roller
-
horizontal roller
-
housing rollers
-
idler roller
-
inker roller
-
ink roller
-
intermittent pressure roller
-
Jar roller
-
live roller
-
mill roller
-
mooring roller
-
multiwheel roller
-
needle roller
-
nip roller
-
opening roller
-
outlet roller
-
output rollers
-
pad roller
-
paint roller
-
paper roller
-
patterned roller
-
pavement roller
-
pinch roller
-
pinned opening roller
-
pneumatic roller
-
pneumatic-tired roller
-
power-driven roller
-
presser roller
-
pressure roller
-
profile roller
-
pull-in roller
-
reciprocating roller
-
ribbon roller
-
road roller
-
rubber-covered roller
-
rubber-tired roller
-
segmented roller
-
sheepsfoot roller
-
slab centering roller
-
smoothing roller
-
smooth-wheel roller
-
snubber roller
-
specially constructed roller
-
sprocket roller
-
squeeze roller
-
static-weight roller
-
straightening roller
-
support roller
-
surface roller
-
surface-finishing roller
-
switch point roller
-
takedown roller
-
tamping roller
-
tandem roller
-
tape guide roller
-
tension roller
-
three-wheel tandem roller
-
track roller
-
trough roller
-
truing roller
-
tubing rollers
-
twister rollers
-
twist rollers
-
two-wheel tandem roller
-
vibrating roller
-
water-cooled inking roller
-
web-guide roller
-
wobble-wheel roller -
94 shear
2) сопр. поперечная сила; сдвигающее усилие3) горн. вертикальный вруб4) мн. ч. двуногий деррик5) направляющая ( станка)6) мн. ч. ножницы•-
air-operated flying shears
-
alligator shears
-
bar shears
-
bed-to-saddle shears
-
bench shears
-
billet shears
-
billet-and-bar shears
-
circular shears
-
cold shears
-
continuous-feed shears
-
crank shears
-
crocodile shears
-
crop shears
-
cross slide shears
-
cutoff shears
-
cutout shears
-
cut-to-length-plate shears
-
direct-charging shears
-
direct-driven shears
-
double-cut shears
-
downcut shears
-
drum-type shear
-
end shears
-
flying shears
-
gang shears
-
guillotine shears
-
hand shears
-
heavy-plate shears
-
hot shears
-
inclined throat shears
-
joist shears
-
lateral shear
-
logger shears
-
longitudinal shear
-
nibble shears
-
open throat shears
-
pendulum drop shears
-
pendulum shears
-
pendulum-type rotary shears
-
power shears
-
punching shear
-
pure shear
-
resquaring shears
-
sheet-bar shears
-
sheet-mill shears
-
side trimming shears
-
simple shear
-
single-sided shears
-
slitting shears
-
start-stop shears
-
tinner's shears
-
trimming shears
-
upcut shears
-
wind shear -
95 truck
4) вагонетка5) тележка (вагона, локомотива)6) ж.-д. открытая (грузовая) платформа7) мор. клот(ик)•-
agitating truck
-
air-suspension truck
-
all-wheel drive truck
-
articulated dump truck
-
articulated truck
-
auto truck
-
automated lift truck
-
barrow truck
-
belly dump truck
-
box truck
-
breakdown truck
-
cable truck
-
cage truck
-
car truck
-
catering truck
-
cementing truck
-
cesspoolage truck
-
chassisless tanker truck
-
chip truck
-
coil tank truck
-
cold storage truck
-
conventional-cab truck
-
counterbalanced truck
-
crane truck
-
cross-braced truck
-
cylinder truck
-
driveless lift truck
-
drum truck
-
dump truck
-
electric crane truck
-
electric lift truck
-
electric platform truck
-
electric truck
-
electric wheel truck
-
electrical hand truck
-
elevating platform truck
-
fork-lift truck
-
four-wheel truck
-
freight-car truck
-
friction wedge truck
-
fuel servicing truck
-
fuel truck
-
gang truck
-
garbage-removal truck
-
garbage truck
-
gasoline-powered truck
-
gas-tank truck
-
gravity-tank truck
-
hand pallet truck
-
hand truck
-
high-sided truck
-
kiln truck
-
ladle truck
-
large dump truck
-
large truck
-
lift truck
-
light-duty truck
-
log truck
-
logging truck
-
mechanically refrigerated truck
-
mine dump truck
-
mine truck
-
mix-pump truck
-
mud pump truck
-
nonagitating truck
-
off-highway dump truck
-
off-highway truck
-
oil-delivery truck
-
passenger-car truck
-
pedestrian elecric pallet truck
-
pedestrian electric fork straddle truck
-
pedestrian electric fork truck
-
pedestrian electric stillage truck
-
pickup drum truck
-
pickup truck
-
pipe-stringing truck
-
platform truck
-
power truck
-
powered pallet truck
-
powered truck
-
radial-type truck
-
reach truck
-
ready-mix truck
-
recording truck
-
reel truck
-
refrigerated truck
-
refuse truck
-
rider electric fork truck
-
rider electric reach fork truck
-
rigid dump truck
-
rigid frame truck
-
rigid truck
-
robot truck
-
saw mill truck
-
scrap-hauling truck
-
seismic truck
-
self-propelled truck
-
short log truck
-
side frame truck
-
side-dump truck
-
side-tip truck
-
single-axle truck
-
single-lift truck
-
six-axle span bolster truck
-
skid lift truck
-
slurry pump truck
-
solid carbon dioxide truck
-
spring-plank type truck
-
spring-plankless type truck
-
sprinkling truck
-
stacking truck
-
stand-on electric reach fork truck
-
straddle truck
-
swing hanger truck
-
swivel truck
-
tank truck
-
teeming truck
-
three-piece truck
-
tilt cab truck
-
timber truck
-
tipper truck
-
towing truck
-
trailing wheel truck
-
transit-mix truck
-
turntable truck
-
turret truck
-
TV remote pickup truck
-
two-way dump truck
-
VTR truck
-
walkie lift truck
-
water truck
-
winch truck
-
wire-line truck
-
workshop truck -
96 window
1) окно; оконный блок2) окно, отверстие3) диафрагма4) промежуток; интервал5) окно прозрачности ( атмосферы)8) селекторный [стробирующий\] импульс, строб-импульс•-
atmospheric transparence window
-
atmospheric window
-
awning window
-
back window
-
bay window
-
bisected capacitive window
-
blackout window
-
blank blind window
-
blank window
-
bow window
-
Brewster-angle window
-
Brewster window
-
capacitive window
-
casement window
-
classroom window
-
coaxial window
-
cockpit windows
-
command window
-
compass window
-
contact window
-
continuous window
-
correction window
-
coupling window
-
dead window
-
desirable launch window
-
diffusion window
-
display window
-
door window
-
dormer window
-
double window
-
double-casement window
-
double-glazed window
-
double-hung sash window
-
double-hung window
-
drop window
-
dual-pane window
-
eyebrow windows
-
false window
-
film exposure window
-
filter window
-
fire window
-
fixed window
-
folding window
-
forward-viewing window
-
frequency window
-
graphics window
-
graphic window
-
Hamming window
-
hopper window
-
hospital window
-
hung window
-
inductive window
-
inspection window
-
ionospheric window
-
jut window
-
kerb window
-
louver window
-
low-loss transmission window
-
message window
-
metal window
-
mica window
-
mini-vent window
-
multiple-casement window
-
optical window
-
oriel window
-
oxide window
-
partial window
-
phase window
-
power window
-
pressuring window
-
quartz window
-
radio window
-
receive window
-
reentry window
-
rendezvous window
-
ribbon window
-
sampling window
-
sash window
-
screen window
-
send window
-
shielding window
-
side-viewing window
-
single-casement window
-
slicing window
-
spectral window
-
storm window
-
stormproof window
-
studio window
-
sun sensitive window
-
time window
-
tinted window
-
top-hung window
-
transom window
-
vertical sliding window
-
via window
-
viewing window
-
watch window
-
waveguide window
-
wood window
-
zip-out window
-
zone-heated rear window -
97 hammer
1) молоток
2) кувалда
3) молотковой
4) молотковый
5) молотовой
6) молоточек
7) молоточек печатающего устройства
8) молоточковый
9) молоточный
10) подбивать
11) чеканить
12) удар
– air-operated hammer
– anvil hammer
– ball set hammer
– ballast hammer
– bench hammer
– bevel set hammer
– cam-operated hammer
– caulking hammer
– chasing hammer
– chipping hammer
– compressed air hammer
– counterblow hammer
– crank-operated hammer
– die-forging hammer
– double-acting hammer
– drop hammer
– electric hammer
– face of a hammer
– forging hammer
– geological hammer
– granulating hammer
– hammer ballast
– hammer briquetting
– hammer crusher
– hammer die
– hammer head
– hammer marble
– hammer mill
– helve hammer
– high-rate-energy hammer
– horning hammer
– hydraulic hammer
– jack hammer
– joiner's hammer
– no anvil hammer
– ore picking hammer
– pile-driving hammer
– planishing hammer
– power hammer
– rapid-action hammer
– riveting hammer
– round set hammer
– scabbling hammer
– shaft hammer
– shingling hammer
– single-acting hammer
– sledge hammer
– smith's hammer
– square set hammer
– stamping hammer
– steam hammer
– steam-air hammer
– straightening hammer
– swage hammer
– water hammer
-
98 jet
1) безнасадочный
2) бить струя
3) водомет
4) водометный
5) воздушно-реактивный
6) гагатовый
7) жиклер
8) <astr.> джет
9) реактивный двигатель
10) сопловой
11) форсунка
12) струйный
13) распыление
14) инжектор
15) пароструйный
16) насадка
17) патрубок
18) рожок
19) факел
20) сопло
– accelerating jet
– air jet
– air-breathing jet engine
– arc-heating jet engine
– atmospheric jet engine
– auxiliary jet
– blow jet
– cargo jet
– clog jet
– coherent jet
– control jet
– cutting jet
– deflect jet
– disturb jet
– fuel jet
– full-power jet
– gas turbine jet engine
– hydraulic jet
– idling jet
– ink jet printing
– ion rocket jet engine
– jet action
– jet airplane
– jet analysis
– jet blower
– jet burner
– jet casing cutter
– jet compressor
– jet control
– jet converges
– jet device
– jet diameter
– jet disintegrates
– jet diverges
– jet dredge
– jet engine
– jet engine fuel
– jet etching
– jet flap
– jet flow
– jet formation
– jet fuel
– jet loom
– jet machine
– jet mill
– jet mixer
– jet nozzle
– jet orifice
– jet propeller
– jet propulsion
– jet pump
– jet regulation
– jet sheet
– jet test
– jet thrust
– jet vacuum pump
– jet vane
– jet wash
– liquid-propellant jet engine
– plasma jet
– reaction jet
– starting jet
– steam jet booster
– steam jet injector
– swirl jet
– turbulent jet
– water jet
jet engine starter system — <engin.> турбостартер
-
99 section
1) сегмент
2) отдел
3) секционировать
4) секция
5) сечение
6) сортоправильный
7) участок
8) шлиф
9) шлифной
10) шмуцтитул
11) разрез
12) делить на части
13) раздел
14) параграф
15) профиль
16) разрезание
17) разрезать
18) рассечение
19) срез
20) цех
21) отрезок
22) <rail.>дистанция
– aft section
– agitation section
– aifoil section
– bent section
– biological section
– center section
– conic section
– core of section
– die-rolled section
– evaporating section
– exhaust section
– exit section
– f section
– filter section
– fluted section
– forward section
– fouling section
– fuselage aft section
– geological section
– heavy section
– high-pressure section
– hot section
– intermediate-pressure section
– light section
– line section
– median section
– microscopic section
– midship section
– nose section
– polished section
– potentiometer section
– power bay section
– raft section
– repeater section
– roll-formed section
– section blocking
– section harrow
– section insulator
– section lineman
– section material
– section mill
– section of multiple
– section rolling
– section straightener
– sound section
– stain section
– tee section
– transposition section
– transverse section
– wing section
cross section of target — <tech.> площадь рассеяния эффективная
fuselage forward section — <aeron.> отсек передний фюзеляжа
nozzle exit section — срез сопла, <engin.> выход соплового канала, сечение сопла выходное
removal cross section — <phys.> сеть электрическая, сечение выведения
slotted section line — <tech.> линия щелевая
specular cross section — <tech.> площадь отражения эффективная
switch section of multiple — секция многократного поля добавочная
vertical instrument section — <tech.> надпанель
-
100 shear
1. pl ножницы2. срез || срезать, резать- alligator shears
- angle shears
- bar shears
- billet shears
- billet and bar shears
- bloom shears
- circular shears
- cogging shears
- cold shears
- cooling bed shears
- crank shears
- crop shears
- crop and cobble shears
- crop and cobble flying shears
- cutout shears
- direct-driven shears
- dividing shears
- double-cut shears
- downcut shears
- down-and-up cut hot shear
- drum-type shears
- drum-type flying crop shears
- electric shears
- electrically operated flying shears
- emergency shears
- end shears
- end trimming shear
- flying shears
- gang slitting shears
- gap shears
- gate shears
- guillotine shears
- hand shears
- heavy-duty shears
- heavy-plate shears
- hot shears
- hydraulic shears
- inclined throat shears
- joist shears
- lever shears
- multi-strand crop and cobble flying shears
- nibbler shears
- open-sided hot shears
- open-side vertical shears
- open throat shears
- plate shears
- portable cropping shears
- power driven shears
- re-squaring shears
- rocker-type flying shears
- rotary shears
- rotary crop shears
- rotary shears
- rotary disk shears
- rotary dividing shears
- rotary flying shears
- rotary flying crop shears
- rotary side trimming shears
- rotary trimming shears
- rotating drum shears
- scrap shears
- sheet-bar shears
- sheet-iron shears
- sheet-mill shears
- side shears
- side trimming shears
- single-sided shears
- single-strand crop and cobble shears
- slab shears
- slitting shears
- snap shear
- squaring shears
- steam-hydraulic shears
- steam-operated flying shears
- trimming shears
- up and downcut shears
- upcut shears
- upcut lever shears
- vertical knife lever shears
- wire shears
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