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1 rotated type
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2 rotated type
компј. ротиран текст. Текст поместен од нормалната хоризонтална положба. -
3 type
1) типа) класс; категория; родб) группа; вид2) модель; образец || быть моделью; служить образцом3) вчт символ ( определённого типа) || служить символом4) литера5) шрифт7) печатать (напр. на пишущей машине); набирать (напр. текст); вводить (напр. данные)8) распечатывать (напр. файл); выводить (напр. данные)•- type of entity
- abstract data type
- acoustical type of lattice vibration
- algebraic data type
- application-oriented data type
- body type
- built-in type
- condensed type
- conductivity type
- constructed data type
- creator type
- data type
- derived type
- digitized type
- display type
- emission type
- encapsulated type
- enumerated type
- expanded type
- fundamental type
- generic type
- immutable reference type
- integral type
- large resource data type
- memory type
- MIME type
- mode type
- Moon type
- mutable reference type
- optical type of lattice vibration
- ordinal type
- parametrized type
- portable user type
- predefined type
- preferred types
- primary type
- primitive type
- private type
- reference type
- resource type
- restricted type
- rotated type
- scalar data type
- set type
- small resource data type
- spectral type
- sum of product type
- user-defined type
- vector data type
- wraparound type -
4 Crompton, Samuel
SUBJECT AREA: Textiles[br]b. 3 December 1753 Firwood, near Bolton, Lancashire, Englandd. 26 June 1827 Bolton, Lancashire, England[br]English inventor of the spinning mule.[br]Samuel Crompton was the son of a tenant farmer, George, who became the caretaker of the old house Hall-i-th-Wood, near Bolton, where he died in 1759. As a boy, Samuel helped his widowed mother in various tasks at home, including weaving. He liked music and made his own violin, with which he later was to earn some money to pay for tools for building his spinning mule. He was set to work at spinning and so in 1769 became familiar with the spinning jenny designed by James Hargreaves; he soon noticed the poor quality of the yarn produced and its tendency to break. Crompton became so exasperated with the jenny that in 1772 he decided to improve it. After seven years' work, in 1779 he produced his famous spinning "mule". He built the first one entirely by himself, principally from wood. He adapted rollers similar to those already patented by Arkwright for drawing out the cotton rovings, but it seems that he did not know of Arkwright's invention. The rollers were placed at the back of the mule and paid out the fibres to the spindles, which were mounted on a moving carriage that was drawn away from the rollers as the yarn was paid out. The spindles were rotated to put in twist. At the end of the draw, or shortly before, the rollers were stopped but the spindles continued to rotate. This not only twisted the yarn further, but slightly stretched it and so helped to even out any irregularities; it was this feature that gave the mule yarn extra quality. Then, after the spindles had been turned backwards to unwind the yarn from their tips, they were rotated in the spinning direction again and the yarn was wound on as the carriage was pushed up to the rollers.The mule was a very versatile machine, making it possible to spin almost every type of yarn. In fact, Samuel Crompton was soon producing yarn of a much finer quality than had ever been spun in Bolton, and people attempted to break into Hall-i-th-Wood to see how he produced it. Crompton did not patent his invention, perhaps because it consisted basically of the essential features of the earlier machines of Hargreaves and Arkwright, or perhaps through lack of funds. Under promise of a generous subscription, he disclosed his invention to the spinning industry, but was shabbily treated because most of the promised money was never paid. Crompton's first mule had forty-eight spindles, but it did not long remain in its original form for many people started to make improvements to it. The mule soon became more popular than Arkwright's waterframe because it could spin such fine yarn, which enabled weavers to produce the best muslin cloth, rivalling that woven in India and leading to an enormous expansion in the British cotton-textile industry. Crompton eventually saved enough capital to set up as a manufacturer himself and around 1784 he experimented with an improved carding engine, although he was not successful. In 1800, local manufacturers raised a sum of £500 for him, and eventually in 1812 he received a government grant of £5,000, but this was trifling in relation to the immense financial benefits his invention had conferred on the industry, to say nothing of his expenses. When Crompton was seeking evidence in 1811 to support his claim for financial assistance, he found that there were 4,209,570 mule spindles compared with 155,880 jenny and 310,516 waterframe spindles. He later set up as a bleacher and again as a cotton manufacturer, but only the gift of a small annuity by his friends saved him from dying in total poverty.[br]Further ReadingH.C.Cameron, 1951, Samuel Crompton, Inventor of the Spinning Mule, London (a rather discursive biography).Dobson \& Barlow Ltd, 1927, Samuel Crompton, the Inventor of the Spinning Mule, Bolton.G.J.French, 1859, The Life and Times of Samuel Crompton, Inventor of the Spinning Machine Called the Mule, London.The invention of the mule is fully described in H. Gatling, 1970, The Spinning Mule, Newton Abbot; W.English, 1969, The Textile Industry, London; R.L.Hills, 1970, Power in the Industrial Revolution, Manchester.C.Singer (ed.), 1958, A History of Technology, Vol. IV, Oxford: Clarendon Press (provides a brief account).RLH -
5 drill
1. сверло; дрель2. сверлить, просверливать3. бур; перфоратор; бурильный молоток4. бурить5. инструктаж; практика; тренировкаdouble core barrel drill — двойная колонковая труба для отбора керна в слабосцементированных породах
— drill by
* * *
1. бур; перфоратор; бурильный молоток; бурильная машина; бурильный станок || буритьcombination electric arc-scraper drill — установка с электродуговым и лопастным разрушением породы на забое
controlled gradient spark drill — электроискровой бур с соосной установкой изолированных друг от друга электродов
double core barrel drill — двойная колонковая труба для отбора керна (в слабосцементированних породах)
— V-drill
* * *
||сверло, бур, перфоратор, бурильный станок || бурить
* * *
* * *
1) бур; перфоратор; бурильный молоток; бурильная машина; буровой станок || бурить3) дрель; сверло; бурав•drill and fire — проходка выработки буровзрывным способом;
to drill ahead — 1) бурить ниже башмака обсадной колонны ( на значительную глубину) 2) продолжать бурение; добуривать, возобновлять бурение ( из-под башмака обсадной колонны);
- drill byto drill ahead the length of kelly — бурить на длину ведущей бурильной трубы;
- drill down
- feed drill
- drill for underground
- drill in
- drill off
- drill out
- drill over
- drill to predetermined point
- drill the pay
- drill the plug
- drill the well
- drill through casing shoe
- drill up
- drill upward
- drill under pressure
- abrasive jet drill
- adamantine drill
- air drill
- air-drifter drill
- air-driven hammer drill
- air-feed drill
- air-feed leg drill
- air-hammer drill
- air-leg rock drill
- air-operated drill
- air-operated downhole drill
- air-operated downhole percussion drill
- anvil-type percussion drill
- arc drill
- attack drill
- auger drill
- automatic feed drill
- automatically rotated stopper drill
- bar drill
- blasthole drill
- blunt drill
- breast drill
- cable drill
- cable-system drill
- cable-tool drill
- Calyx drill
- carbide-tipped drill
- cavitating jet drill
- chemical drill
- chilled-shot drill
- churn drill
- column drill
- columnal drill
- combination drill
- combination electrical arc-scraper drill
- combination mechanical-spark drill
- compressed-air drill
- continuous chain drill
- controlled gradient spark drill
- core drill
- cross-edged drill
- crawler drill
- crawler-mounted rotary blasthole drill
- crown drill
- deep-hole drill
- diamond drill
- double core barrel drill
- double-turbine drill
- downhole drill
- downhole hammer drill
- downhole hydraulic hammer drill
- down-the-hole drill
- drifter drill
- dryductor drill
- earth drill
- electrical drill
- electrical-air drill
- electrical-arc drill
- electrical-disintegration drill
- electrical-heater drill
- electrojet drill
- electronic beam drill
- erosion drill
- explosive drill
- explosive capsule drill
- exposed electrode spark drill
- face drill
- feedleg drill
- flame jet drill
- flexible drill
- forced flame drill
- frame-and-skid mounted drill
- free-fall drill
- fusion-piercing drill
- gasoline rock drill
- gravel spoon drill
- hammer drill
- hammer hand drill
- hand drill
- hand-churn drill
- hand-diamond drill
- hand-held drill
- hand-held hammer drill
- hand-held rock drill
- hand-held self-rotating air-hammer drill
- hard rock drill
- heavy hand-held rock drill
- helical drill
- high-frequency drill
- high-frequency electrical drill
- high-pressure drifter drill
- high-pressure jet drill
- high-speed drill
- high-thrust drill
- hydraulic drill
- hydraulic crawler drill
- impact drill
- implosion drill
- induction drill
- injection drill
- intermediate drill
- in-the-hole drill
- jackhammer drill
- jackleg drill
- jet-assisted mechanical drill
- jet-assisted rocket exhaust drill
- jet-pierce drill
- jet-piercing drill
- jet-pump pellet impact drill
- jetting drill
- jumper drill
- Kapelyushnikov drill
- large drill
- laser drill
- laser-assisted rock drill
- laser-oil-well drill
- laser-sonic drill
- lateral drill
- light hammer drill
- light wagon drill
- liquid explosive drill
- long-hole drill
- long-piston rock drill
- long-sash drill
- machine drill
- magnetostrictive drill
- mechanically driven drill
- mobile drill
- mobile mine drill
- motor drill
- mounted drill
- nondiamond core drill
- nuclear drill
- oil-well cavitation drill
- oil-well laser drill
- oil-well laser perforating drill
- oil-well pulsed jet drill
- oil-well spark drill
- ordinary rock drill
- pack-sack piercing drill
- parting drill
- pellet-impact drill
- percussion drill
- piercing drill
- pipe drill
- piston drill
- piston-air drill
- piston-reciprocating rock drill
- piston-type drill
- plasma drill
- plasma arc drill
- plate-shaped drill
- plugger drill
- pneumatic drill
- pneumatic rock drill
- pocket drill
- pole drill
- pop-holing drill
- portable drill
- post drill
- posting mounted drill
- post-mounted drill
- power drill
- prospecting drill
- push-feed drill
- radial drill
- radial spark drill
- rammer drill
- ratchet drill
- reciprocating drill
- reciprocating rock drill
- reconnaissance drill
- rig-mounted drill
- rock drill
- rock hammer drill
- rocket drill
- rocket exhaust drill
- roller bit implosion drill
- roof drill
- rope drill
- rope-system drill
- rotary drill
- rotary bucket drill
- rotary-percussion drill
- rotary-shot drill
- rotating rocket exhaust drill
- rubber-tired drill
- screw-feed diamond drill
- seafloor spark drill
- seismic drill
- seismograph drill
- self-contained drill
- self-hauling drill
- self-propelled drill
- shock-absorber drill
- shock-wave drill
- short-hole drill
- shot drill
- shot-boring drill
- shothole drill
- sinker drill
- skid-mounted drill
- small drill
- sonic drill
- spark drill
- spark-percussion drill
- spear-pointed drill
- spindle drill
- spiral drill
- splayed drill
- spud drill
- star drill
- steam drill
- steam-motivated diamond drill
- steam-operated drill
- stopper drill
- supersonic plasma arc oil well drill
- surface drill
- surface-mounted percussive drill
- tangential spark drill
- tap drill
- telescopic drill
- telescopic feed hammer drill
- thermal-mechanical drill
- thermal-shocking rocket drill
- thermic drill
- thermocorer drill
- top hammer drill
- traction drill
- tripod drill
- tri-point rock drill
- truck-mounted drill
- truck-mounted blasthole drill
- tubing drill
- tubular drill
- tunnel drill
- turbine cavitation drill
- turbine powered cavitation drill
- turbine spark drill
- twist drill
- ultrasonic drill
- underground drill
- unmounted drill
- V-drill
- vented drill
- vertical drill
- vibration drill
- vibratory drill
- wagon drill
- wash-boring drill
- water drill
- water-fed drill
- water-injection drill
- water-jet assisted rocket drill
- water-jet pole-hole boring drill
- water-well drill
- well drill
- wet sinker drill* * *• 1) бур; 2) бурильный молоток• 1) бурить; 2) буримый; 3) пробуренный• бур• бурить• практика -
6 culture
culture 1. культура (напр. бактерий) ; 2. разведение, выращиваниеculture культура, культивирование организмов или тканей в лабораторных условиях на искусственно приготовленной средеculture chamber культуральная камераadhesive culture культура в капле среды на покровном стеклеaerated culture аэрированная культураaerobic culture аэробная культураagar culture культура на агареagitated culture перемешиваемая встряхиванием культураanaerobic culture анаэробная культураanimal culture культура клеток животныхaroma-producing culture ароматообразующая культураartificial culture искусственное разведениеaseptic culture асептическое выращиваниеaxenic culture аксенная культура, стерильная культура; чистая культураbatch culture культура одного производственного циклаbatch culture периодическая культураbroth culture бульонная культураcallus tissue culture культура каллусных тканейcell culture культура клетокcell suspension culture суспензионная культура клетокchorioallantoic culture хориоаллантоисная культураclonal culture клонированная культураcontaminated culture загрязненная культураcontaminated culture нечистая культураcontinuons-flow culture проточная культураcontrol culture контрольная культураdark-grown culture выращенная в темноте культураdeep-liquid culture глубинная культураdifferentiated culture дифференцированная культураdiploidization of culture диплоидизация культурыdried culture высушенная культураdroplet culture капельная культураembryo culture культура эмбрионовenrichment culture обогатительная культураexcised embryo culture культура изолированных эмбрионовexcised organ culture культура изолированных органовexperimental culture экспериментальная культураexplant culture культура тканиexposition of culture воздействие на культуруfed-batch culture подпитываемая культура одного производственного циклаfreeze-dried culture лиофилизованная культураfrozen culture замороженная культураfungal culture культура грибовgerm culture микробная культураglycerolized culture глицериновая культураgrowing culture растущая культура; размножающаяся культураhabituated culture адаптированная культураheavily sporulating culture обильно спорулирующая культураheterogeneous culture гетерогенная культураhigh density culture концентрированная культураhomogeneous culture гомогенная культураhousing patent culture коллекционная патентованная культураhuman cell culture культура клеток человекаhuman tissue culture культура ткани человекаimproving culture conditions оптимизированные условия культивированияimpure culture загрязнённая культураisolated clonal culture изолированная клонированная культураisolated protoplast culture культура изолированных протопластовlaboratory culture лабораторная культураlarge-scale culture крупномасштабная культураliquid culture культура в жидкой средеlogarithmic phase culture культура, находящаяся в логарифмической фазе ростаlong-period culture длительная культураmaintaining culture поддерживаемая культураmaintaining culture сохраняемая культураmanufacturing plant culture промышленная культураmass culture массовая культураmicrocarrier culture культура клеток на микроносителяхmixed culture смешанная культураmonolayer cell culture монослойная культураmonolayer culture монослойная культура, однослойная культураmonospecies culture монокультураmonoxenic culture моноксенная культураnegative culture отрицательная культураnonproliferating culture непролиферирующая культураnonsporulating culture неспорообразующая культураold culture старая культураopen culture непрерывная культураovernight culture ночная культураPetri dish culture культура на чашках ПетриPetry dish culture культура на чашках Петриplant cell culture культура клеток растенияplant tissue culture культура клеток растительной тканиplate culture культура на чашках Петриpositive culture положительная культураpreserved culture законсервированная культураpreserved culture сохраняемая культураprimary culture первичная культураproduction culture производственная культураprompt culture закваскаprompt culture затравочная культураprotoplast culture культура протопластовpure culture чистая культураreference culture тест-культураreplicate culture реплицированная культураresistant culture резистентная культураroll bottle culture роллерная культураrotated culture роллерная культураroutine culture стандартная культураseed culture посевная культураselective culture селективная культураserum-free culture бессывороточная культураshort-term culture кратковременная культураsingle cell culture культура, полученная из одной клеткиsingle cell culture культура одной клеткиsingle cell culture культура одноклеточного организмаsingle-cell culture культура, выделенная из одной клеткиsister culture сестринская культураslant culture культура на скошенном агареslide culture культура на предметном стеклеslope culture культура на скошенном агареsmear culture культура мазкомsoil culture почвенная культураsoil-water culture культура на почвенной вытяжкеspent culture отработанная культураsporulating culture спорулирующая культураstabilized culture стабилизированная культураstarter culture закваскаstatic culture статическая культураsteady-state culture стационарная культураstock culture штамм, чистая культураstock culture collection базовая коллекция культур микроорганизмовstock yeast culture маточные дрожжиstored culture законсервированная культураstroke culture поверхностная культураsubmerged culture погружённая культура, глубинная культураsurface culture поверхностная культураsuspended cell culture культура ткани из суспендированных клетокsuspension culture суспензионная культураsynchronized culture синхронизированная культураsynchronous culture синхронно растущая культураtest-tube culture пробирочная культураtissue culture тканевая культура, культура тканиtumor tissue culture культура опухолевой тканиtwo-membered culture смешанная культура двух видов организмовtype culture стандартная культураtype culture типовая культураunialgal culture альгологически чистая культура (свободная от водорослей других видов)water culture водная культураworking culture рабочая культураyoung culture молодая культураEnglish-Russian dictionary of biology and biotechnology > culture
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7 gyroscope
free(-attitude, -rotor) gyroscope — свободный [трёхстепенный] гироскоп
-
8 Laval, Carl Gustaf Patrik de
SUBJECT AREA: Agricultural and food technology, Electricity, Mechanical, pneumatic and hydraulic engineering, Steam and internal combustion engines[br]b. 9 May 1845 Orsa, Swedend. 2 February 1913 Stockholm, Sweden[br]Swedish inventor of an advanced cream separator and a steam turbine.[br]Gustaf de Laval was educated at the Stockholm Technical Institute and Uppsala University. He proved to have an unfailing vigour and variety in his inventive talent, for his interests ranged from electric lighting and electrometallurgy to aerodynamics. In the 1890s he employed over one hundred engineers to develop his inventions, but he was best known for two: the cream separator and a steam turbine. In 1877 he invented the high-speed centrifugal cream separator, which was probably the greatest advance in butter-making up to that time. By 1880 the separators were being successfully marketed all over the world, for they were quickly adopted in larger dairies where they effected enormous savings in labour and space. He followed this with various devices for the dairy industry, including a vacuum milking machine perfected in 1913. In c. 1882, de Laval invented a turbine on the principle of Hero's engine, but he quickly turned his attention to the impulse type, which was like Branca's, with a jet of steam impinging on a set of blades around the periphery of a wheel. He applied for a British patent in 1889. The steam was expanded in a single stage from the initial to the final pressure: to secure economy with the steam issuing at high velocity, the blades also had to rotate at high velocity. An early 5 hp (3.7 kW) turbine rotated at 30,000 rpm, so reduction gearing had to be introduced. Production started in Sweden in 1893 and in other countries at about the same time. In 1892 de Laval proposed employing one of his turbines of 15 hp (11 kW) in an experimental launch, but there is no evidence that it was ever actually installed in a vessel. However, his turbines were popular for powering electric generating sets for lighting textile mills and ships, and by 1900 were available in sizes up to 300 bhp (224 kW).[br]Bibliography1889, British patent no. 7,143 (steam turbine).Further ReadingT.Althin, 1943, Life of de Laval, Stockholm (a full biography).T.I.Williams (ed.), 1969, A Biographical Dictionary of Scientists, London: A. \& C. Black (contains a brief biography).R.M.Neilson, 1902, The Steam Turbine, London: Longmans, Green \& Co. (fully covers the development of de Laval's steam turbine).H.W.Dickinson, 1938, A Short History of the Steam Engine, Cambridge University Press (contains a short account of the development of the steam turbine).R.L.Hills, 1989, Power from Steam. A History of the Stationary Steam Engine, Cambridge University Press (contains a short account).RLHBiographical history of technology > Laval, Carl Gustaf Patrik de
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9 OpenType font
A type of computer font that can be rotated or scaled to any size. OpenType fonts are clear and readable in all sizes and can be sent to any printer or other output device that is supported by Windows.
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