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1 twisting mill
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2 twisting mill
< textil> ■ Zwirnerei f -
3 twisting machine
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4 twisting
<mvhcl.mot> (of crankshafts) ■ Twistung f< prod> ■ Verdrillung f< textil> ■ Drehung f< textil> ■ Drahtgebung f -
5 twisting process
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6 doubling machine
< textil> ■ Fachmaschine f -
7 twister
-
8 Cotchett, Thomas
SUBJECT AREA: Textiles[br]fl. 1700s[br]English engineer who set up the first water-powered textile mill in Britain at Derby.[br]At the beginning of the eighteenth century, silk weaving was one of the most prosperous trades in Britain, but it depended upon raw silk worked up on hand twisting or throwing machines. In 1702 Thomas Cotchett set up a mill for twisting silk by water-power at the northern end of an island in the river Derwent at Derby; this would probably have been to produce organzine, the hard twisted thread used for the warp when weaving silk fabrics. Such mills had been established in Italy beginning with the earliest in Bologna in 1272, but it would appear that Cotchett used Dutch silk-throwing machinery that was driven by a water wheel that was 13½ ft (4.1 m) in diameter and built by the local engineer, George Sorocold. The enterprise soon failed, but it was quickly revived and extended by Thomas and John Lombe with machinery based on that being used successfully in Italy.[br]Further ReadingD.M.Smith, 1965, Industrial Archaeology of the East Midlands, Newton Abbot (provides an account of Cotchett's mill).W.H.Chaloner, 1963, "Sir Thomas Lombe (1685–1739) and the British silk industry", History Today (Nov.).R.L.Hills, 1970, Power in the Industrial Revolution, Manchester (a brief coverage of the development of early silk throwing mills).D.Kuhn, 1988, Science and Civilisation in China, Vol. V: Chemistry and ChemicalTechnology, Part 9, Textile Technology: spinning and reeling, Cambridge (covers the diffusion of the techniques of the mechanization of the silk-throwing industry from China to the West).RLH -
9 spindle
1) шпиндель3) стержень; палец4) шейка вала; цапфа5) микрометрический винт ( микрометра)6) ходовой винт9) текст. веретено10) мор. баллер•-
adapter spindle
-
adjusting spindle
-
air-bearing spindle
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armature spindle
-
automatic locking spindle
-
backwork spindle
-
ball-bearing spindle
-
belt spindle
-
bored spindle
-
boring spindle
-
brake spindle
-
capstan spindle
-
cap-twisting spindle
-
cartridge-type spindle
-
cartridge spindle
-
chuck spindle
-
collet-chucking spindle
-
cross spindle
-
cutter spindle
-
dead spindle
-
doubling spindle
-
drilling spindle
-
drill spindle
-
electrical spindle
-
electric spindle
-
feed spindle
-
flyer spindle
-
footstock spindle
-
grinding wheel spindle
-
hollow bore spindle
-
hollow spindle
-
index spindle
-
insulator spindle
-
lead spindle
-
lifting spindle
-
live spindle
-
main spindle
-
mill spindle
-
milling-drilling and boring spindle
-
pneumatic spindle
-
programmable-speed spindle
-
ram-type spindle
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right-angle spindle
-
ring-spinning spindle
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roving spindle
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rudder spindle
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saw spindle
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screw spindle
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spinning spindle
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surfacing wheel spindle
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tailstock spindle
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temperature-controlled spindle
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tool-carrying spindle
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tube spindle
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turret spindle
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twisting spindle
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two-for-one-twist spindle
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valve spindle
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wheel spindle
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wobbler spindle
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work spindle -
10 test
1. испытание, проверка; опыт; проба; исследование, анализ || испытывать, проверять; исследовать; производить анализ2. опробование ( скважины) || опробоватьrule of thumb test — грубый [приближенный] метод оценки
— ball indentation test— Charpy impact test— DAP test— dry test— hydraulic pressure test— Izod impact test— shearing test— torsional test— wearing test
* * *
1. испытание, испытания; проверка; контроль2. исследование; анализ3. критерийdrill stem formation test — исследование пласта пластоиспытателем, спускаемым на бурильных трубах
— use test
* * *
исследование; испытание; опыт; проверка
* * *
опыт; испытание, проверка; проверять
* * *
1) испытание, испытания; проба; проверка; контроль2) исследование; анализ4) опробование ( скважины) || опробовать6) критерий•test for color stability — испытания ( бензина) на стабильность цвета;
test for defect — проверка на наличие дефектов;
test for soundness — испытания ( цемента) на равномерность изменения объёма;
test for suitability — испытания на пригодность (); испытания на соответствие заданным требованиям;
to test a core for shows of oil — исследовать керн на признаки нефти;
to test a well — измерять дебит скважины;
to apply boring test — применять бурение при поисковых работах;
test to destruction — испытания до разрушения ( образца), разрушающие испытания;
test to failure — испытания до отказа;
to put to test — подвергать испытаниям;
test with recovery — испытания с восстановлением;
- abrasion testtest without destruction — испытания без разрушения ( образца), неразрушающие испытания;
- accelerated test
- accelerated aging test of gasoline
- acceleration inertia load test
- acceptance test
- acid heat test
- activity test
- adhesion test
- air pressure test
- alkali test
- angularity test
- aniline test
- appraisal test
- assessment test
- ASTM test
- audit test
- availability acceptance test
- azimuth test
- back-pressure test
- back-pressure formation test
- bailing test
- bearing test
- bedrock test
- blowdown test
- bottle test
- breakdown test
- burn-in reliability test
- carbon test
- carbon color test
- casing-packer formation test
- centrifuge test
- certification test
- charcoal test
- charcoal weight test
- checkout test
- cloud test of petroleum oil
- coke test
- coking test
- cold test
- combined environment reliability test
- complete destructive test
- complete functional test
- cone penetrometer test
- confirmation test
- confirmatory test
- consumption test
- contact test
- contamination test
- control test
- controlled test
- copper dish gum evaporation test
- copper dish residue test
- copper strip test
- corrosion test
- corrosive wear test
- cracking test
- crankcase oil dilution test
- crankcase oil foaming test
- crosstalk test
- current production rate test
- damaging test
- deep test
- deep pool test
- definitive test
- demulsibility test
- demulsification test
- development test
- diammonium phosphate test
- diesel-fuel distillation test
- diesel-fuel gravity test
- dilution test of fuel
- dip test
- direct oxidation test
- distillation test
- doctor test
- double casing-packer formation test
- double wall-packer formation test
- drawdown test
- drift test
- drilling mud density test
- drilling mud fluidity test
- drill-off test
- drill-stem formation test
- dry test
- eddy-current test
- emulsification test
- endurance test
- engineering design test
- engineering evaluation test
- equipment operation test
- evaporation test of gasoline
- evaporation gum test
- exploratory test
- extension test
- fail-safe test
- failure test
- failure-producing test
- failure-rate test
- failure-terminated test
- failure-truncated test
- failure-under-load test
- falling weight test
- fatigue test
- field test
- field compression test
- field maintenance test
- filter test
- filtration test
- final malfunction test
- fire test
- firing time test
- flammability test
- float test
- floc test
- flood pot test
- flow test
- flowing bottom hole pressure test
- fluid test
- foam test
- forced failure test
- formation test
- formation productivity test
- friability test
- fuel dilution test
- full-scale test
- full-scale fatigue test
- gas test
- gas flow test
- gas impermeability test
- gasoline precipitation test
- gasoline sulfur test
- gasoline tetraethil lead test
- gasoline volatility test
- gel strength test
- glass dish evaporation test
- glass dish gum test
- Green test
- guarantee test
- gum test
- gumming test
- hammer test
- hand test
- heavy-duty test
- hot test
- hot filtration test
- hydraulic-pressure test
- hydro test
- hydrogen-in-petroleum test
- hydrostatic test
- immersion test
- in-place test
- in-use life test
- inflammability test
- initial well potential test
- injectivity test
- injectivity-index test
- interference test
- intermodulation test
- kauri-butanol solvency test
- knock test
- laboratory test on crude
- laboratory test on oil
- lacquer test
- lamp burning test
- lamp sulfur test
- lead acetate test
- leak test
- leakage test
- leakage test of weld seams
- length-of-life test
- life test
- life-certification test
- line test
- logging-cable formation test
- longevity test
- lubricating oil emulsion test
- lubricating oil metal test
- magnetic polarity test
- maintainability test
- maintenance test
- marine explosure test
- mercurization test
- mercury freezing test
- mixing water test
- motor method test
- multirate flow test
- neutralization test
- nitrating test
- nonfoaming test
- nonreplacement test
- oil cold test
- oil corrosion test
- oil emulsion test
- oil well potential test
- Oliensis spot test
- on-site test
- open-flow test
- open-hole formation test
- operability test
- operating life test
- operational test
- operational readiness test
- operational readiness and reliability test
- operational readiness inspection test
- operational suitability test
- oven test
- overflow test
- overspeed test
- overstress reliability test
- oxidation test
- oxygen absorption test
- pass-fail test
- penetration test
- performance test
- periodic potential test
- periodic well potential test
- permeability test
- pipeline immersion test
- plam test
- porcelain dish test
- postcompletional flow test
- potential test
- predemonstration test
- preliminary qualification test
- preoverhaul test
- prepilot mining test
- prequalification test
- pressure test
- pressure building test
- pressure drawdown test
- pressure transient test
- producing test
- production test
- production reliability test
- productivity test
- product-proof test
- proof test
- pulling test
- pulse test
- qualification test
- quality verification test
- reaction test
- reflection test
- refraction test
- reliability test
- reliability assurance test
- reliability audit test
- reliability demonstration test
- reliability field test
- reliability growth test
- reliability production test
- reliability verification test
- repair test
- repeated bending stress test
- repeated compression test
- repeated direct stress test
- repeated dynamic stress test
- repeated impact tension test
- repeated stress test
- repeated tensile stress test
- repeated tension test
- repeated torsion test
- replacement test
- reservoir limit test
- reversion test of kerosene
- rheometric test
- ring test
- road knock test
- rock specimen test
- running test
- sampling reliability test
- seawater corrosion test
- sediment-and-water test
- sedimentometric test
- seismic test
- selective flow test of well
- sequential reliability test
- service test
- serviceability test
- service-life evaluation test
- setting-time test
- settlement test
- severe-duty test
- shallover pay test
- short-time well test
- shut-in pressure test
- sieving test
- silica test
- silicotungstic acid test
- sludge test
- sludging test
- smell test
- smoke test
- soap hardness test
- soundness-and-fineness test
- spot test
- spot quality test
- stability test
- standard test
- standard acid test
- standard distillation test
- steady-state test of well
- steam soak test
- step-rate test
- straddle test
- straddle packer drill stem test
- straight-hole test
- strata test
- submersion test
- suitability test
- sulfated residue test
- sulfur test
- sulfuric acid heat test
- system operation test
- tap test
- tensile test
- tensile-and-compression test
- tensile-fatigue test
- tensile-impact test
- tensile-shock test
- tension test
- thickening-time test
- through-casing formation test
- time-terminated reliability test
- torque test
- torsion test
- torsion impact test
- toughness test
- trial test
- tribotechnical test
- Tutwiler test
- twisting test
- type test
- undestructive test
- upsetting test
- up-the-hole test
- use test
- vane test
- varnish test
- verification life test
- viscosity test
- volatilization test
- wall building test
- wall-packer formation test
- warranty test
- water test
- water-and-oil content test
- waterflood core test
- water-loss test
- wear test
- weld test
- weldability test
- welding test
- well test
- well potential test
- winterization test
- wireline formation test
- withdrawal test* * * -
11 spindle
1) веретено
2) веретенный
3) веретенообразный
4) соединительный валок
5) шпиндель
6) шпиндельный
7) ось
8) валик
– cotton-picking spindle
– coupling spindle
– double-twist spindle
– fixed spindle
– float spindle
– leading spindle
– master spindle
– mill spindle
– nose of a spindle
– saw spindle
– spindle blade
– spindle head
– spindle nebula
– spindle of capstan
– spindle oil
– spindle slate
– spindle slot
– spinning spindle
– top spindle
– turbine spindle
– twisting spindle
– valve spindle
– winding spindle
– wood-lathe spindle
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12 wet
1) мокрый
2) вмокрую
3) всырую
4) замачивать
5) замочить
6) измачивать
7) измочить
8) намокший
9) намоченный
10) смачивать
11) увлажнять
12) увлажнить
13) орошение
14) влажный
15) влажен
16) смочить
17) мокнуть
18) промокнуть
– primary wet cleaner
– wet analysis
– wet bleaching
– wet catalysis
– wet cell
– wet classifier
– wet cleaning
– wet combustion
– wet crushing mill
– wet drilling
– wet drops
– wet dust
– wet electrolytic capacitor
– wet etching
– wet fat rendering
– wet gas
– wet gas-holder
– wet grinding
– wet laying
– wet plate
– wet rot
– wet scouring
– wet screening
– wet separation
– wet spinning
– wet steam
– wet strength
– wet suction fan
– wet treatment
– wet twisting
– wet water meter -
13 slubbing
-
14 spindle
1) валик2) веретено; веретенообразный предмет3) ось, вал || насаживать на ось или вал4) стержень; палец6) шпиндель || шпиндельный7) ходовой винт•to spindle up — полигр. заряжать рулон
-
15 Piecer
An operative in the spinning mill whose duty it is to join up by twisting those threads which have broken. -
16 Fairbairn, Sir Peter
SUBJECT AREA: Textiles[br]b. September 1799 Kelso, Roxburghshire, Scotlandd. 4 January 1861 Leeds, Yorkshire, England[br]British inventor of the revolving tube between drafting rollers to give false twist.[br]Born of Scottish parents, Fairbairn was apprenticed at the age of 14 to John Casson, a mill-wright and engineer at the Percy Main Colliery, Newcastle upon Tyne, and remained there until 1821 when he went to work for his brother William in Manchester. After going to various other places, including Messrs Rennie in London and on the European continent, he eventually moved in 1829 to Leeds where Marshall helped him set up the Wellington Foundry and so laid the foundations for the colossal establishment which was to employ over one thousand workers. To begin with he devoted his attention to improving wool-weaving machinery, substituting iron for wood in the construction of the textile machines. He also worked on machinery for flax, incorporating many of Philippe de Girard's ideas. He assisted Henry Houldsworth in the application of the differential to roving frames, and it was to these machines that he added his own inventions. The longer fibres of wool and flax need to have some form of support and control between the rollers when they are being drawn out, and inserting a little twist helps. However, if the roving is too tightly twisted before passing through the first pair of rollers, it cannot be drawn out, while if there is insufficient twist, the fibres do not receive enough support in the drafting zone. One solution is to twist the fibres together while they are actually in the drafting zone between the rollers. In 1834, Fairbairn patented an arrangement consisting of a revolving tube placed between the drawing rollers. The tube inserted a "middle" or "false" twist in the material. As stated in the specification, it was "a well-known contrivance… for twisting and untwisting any roving passing through it". It had been used earlier in 1822 by J. Goulding of the USA and a similar idea had been developed by C.Danforth in America and patented in Britain in 1825 by J.C. Dyer. Fairbairn's machine, however, was said to make a very superior article. He was also involved with waste-silk spinning and rope-yarn machinery.Fairbairn later began constructing machine tools, and at the beginning of the Crimean War was asked by the Government to make special tools for the manufacture of armaments. He supplied some of these, such as cannon rifling machines, to the arsenals at Woolwich and Enfield. He then made a considerable number of tools for the manufacture of the Armstrong gun. He was involved in the life of his adopted city and was elected to Leeds town council in 1832 for ten years. He was elected an alderman in 1854 and was Mayor of Leeds from 1857 to 1859, when he was knighted by Queen Victoria at the opening of the new town hall. He was twice married, first to Margaret Kennedy and then to Rachel Anne Brindling.[br]Principal Honours and DistinctionsKnighted 1858.Bibliography1834, British patent no. 6,741 (revolving tube between drafting rollers to give false twist).Further ReadingDictionary of National Biography.Obituary, 1861, Engineer 11.W.English, 1969, The Textile Industry, London (provides a brief account of Fairbairn's revolving tube).C.Singer (ed.), 1958, A History of Technology, Vols IV and V, Oxford: Clarendon Press (provides details of Fairbairn's silk-dressing machine and a picture of a large planing machine built by him).RLH -
17 Highs, Thomas
SUBJECT AREA: Textiles[br]fl. 1760s England[br]English reedmaker who claimed to have invented both the spinning jenny and the waterframe.[br]The claims of Highs to have invented both the spinning jenny and the waterframe have been dismissed by most historians. Thomas Highs was a reedmaker of Leigh, Lancashire. In about 1763 he had as a neighbour John Kay, the clockmaker from Warrington, whom he employed to help him construct his machines. During this period they were engaged in making a spinning jenny, but after several months of toil, in a fit of despondency, they threw the machine through the attic window. Highs persevered, however, and made a jenny that could spin six threads. The comparatively sophisticated arrangements for drawing and twisting at the same time, as depicted by Guest (1823), suggest that this machine came after the one invented by James Hargreaves. Guest claims that Highs made this machine between 1764 and 1766 and in the following two years constructed another, in which the spindles were placed in a circle. In 1771 Highs moved to Manchester, where he constructed a double jenny that was displayed at the Manchester Exchange, and received a subscription of £200 from the cotton manufacturers. However, all this occurred after Hargreaves had constructed his jenny. In the trial of Arkwright's patent during 1781, Highs gave evidence. He was recalled from Ireland, where he had been superintending the building of cotton-spinning machinery for Baron Hamilton's newly erected mill at Balbriggan, north of Dublin. Then in 1785, during the next trial of Arkwright's patent, Highs claimed that in 1767 he had made rollers for drawing out the cotton before spinning. This would have been for a different type of spinning machine, similar to the one later constructed by Arkwright. Highs was helped by John Kay and it was these rollers that Kay subsequently built for Arkwright. If the drawing shown by Guest is correct, then Highs was working on the wrong principles because his rollers were spaced too far apart and were not held together by weights, with the result that the twist would have passed into the drafting zone, producing uneven drawing.[br]Further ReadingR.Guest, 1823, A Compendious History of the Cotton-Manufacture: With a Disproval of the Claim of Sir Richard Arkwright to the Invention of its Ingenious Machinery, Manchester (Highs's claim for the invention of his spinning machines).R.S.Fitton, 1989, The Arkwrights, Spinners of Fortune, Manchester (an examination of Highs's claims).R.L.Hills, 1970, Power in the Industrial Revolution, Manchester (discusses the technical problems of the invention).RLH
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