-
1 clamp
1 nLAB paint, pigments abrazadera f, pinza fMECH grapa f, zuncho m, tornillo de banco m, mordaza f, abrazadera f, grampa fMECH ENG for rubber tubes pinza para tubos de goma f, motón m, abrazadera f, prensa de sujeción f, tornillo de presión m, of levelling instrument pinza f, zuncho m, grapa fMINE, OCEAN abrazadera fPHOTO pinza fPROD abrazadera fTRANSP, VEH mordaza f, abrazadera f, grampa f2 vtCONST grapar, sujetar con mordazasELEC graparMECH embridar, fijar, sujetar, graparMECH ENG graparPROD empotrar, fijar -
2 Ewart, Peter
SUBJECT AREA: Textiles[br]b. 14 May 1767 Traquair, near Peebles, Scotlandd. September 1842 London, England[br]Scottish pioneer in the mechanization of the textile industry.[br]Peter Ewart, the youngest of six sons, was born at Traquair manse, where his father was a clergyman in the Church of Scotland. He was educated at the Free School, Dumfries, and in 1782 spent a year at Edinburgh University. He followed this with an apprenticeship under John Rennie at Musselburgh before moving south in 1785 to help Rennie erect the Albion corn mill in London. This brought him into contact with Boulton \& Watt, and in 1788 he went to Birmingham to erect a waterwheel and other machinery in the Soho Manufactory. In 1789 he was sent to Manchester to install a steam engine for Peter Drinkwater and thus his long connection with the city began. In 1790 Ewart took up residence in Manchester as Boulton \& Watt's representative. Amongst other engines, he installed one for Samuel Oldknow at Stockport. In 1792 he became a partner with Oldknow in his cotton-spinning business, but because of financial difficulties he moved back to Birmingham in 1795 to help erect the machines in the new Soho Foundry. He was soon back in Manchester in partnership with Samuel Greg at Quarry Bank Mill, Styal, where he was responsible for developing the water power, installing a steam engine, and being concerned with the spinning machinery and, later, gas lighting at Greg's other mills.In 1798, Ewart devised an automatic expansion-gear for steam engines, but steam pressures at the time were too low for such a device to be effective. His grasp of the theory of steam power is shown by his paper to the Manchester Literary and Philosophical Society in 1808, On the Measure of Moving Force. In 1813 he patented a power loom to be worked by the pressure of steam or compressed air. In 1824 Charles Babbage consulted him about automatic looms. His interest in textiles continued until at least 1833, when he obtained a patent for a self-acting spinning mule, which was, however, outclassed by the more successful one invented by Richard Roberts. Ewart gave much help and advice to others. The development of the machine tools at Boulton \& Watt's Soho Foundry has been mentioned already. He also helped James Watt with his machine for copying sculptures. While he continued to run his own textile mill, Ewart was also in partnership with Charles Macintosh, the pioneer of rubber-coated cloth. He was involved with William Fairbairn concerning steam engines for the boats that Fairbairn was building in Manchester, and it was through Ewart that Eaton Hodgkinson was introduced to Fairbairn and so made the tests and calculations for the tubes for the Britannia Railway Bridge across the Menai Straits. Ewart was involved with the launching of the Liverpool \& Manchester Railway as he was a director of the Manchester Chamber of Commerce at the time.In 1835 he uprooted himself from Manchester and became the first Chief Engineer for the Royal Navy, assuming responsibility for the steamboats, which by 1837 numbered 227 in service. He set up repair facilities and planned workshops for overhauling engines at Woolwich Dockyard, the first establishment of its type. It was here that he was killed in an accident when a chain broke while he was supervising the lifting of a large boiler. Engineering was Ewart's life, and it is possible to give only a brief account of his varied interests and connections here.[br]Further ReadingObituary, 1843, "Institution of Civil Engineers", Annual General Meeting, January. Obituary, 1843, Manchester Literary and Philosophical Society Memoirs (NS) 7. R.L.Hills, 1987–8, "Peter Ewart, 1767–1843", Manchester Literary and PhilosophicalSociety Memoirs 127.M.B.Rose, 1986, The Gregs of Quarry Bank Mill The Rise and Decline of a Family Firm, 1750–1914, Cambridge (covers E wart's involvement with Samuel Greg).R.L.Hills, 1970, Power in the Industrial Revolution, Manchester; R.L.Hills, 1989, Powerfrom Steam, Cambridge (both look at Ewart's involvement with textiles and steam engines).RLH -
3 tube
noun1) (for conveying liquids etc.) Rohr, das3) (Anat., Zool.) Röhre, diewatch the tube — vor der Röhre sitzen (ugs.)
* * *[tju:b]1) (a long, low cylinder-shaped object through which liquid can pass; a pipe: The water flowed through a rubber tube; a glass tube.) das Rohr2) (an organ of this kind in animals or plants.) die Röhre3) (an underground railway (especially in London): I go to work on the tube / by tube; ( also adjective) a tube train/station.) die Londoner U-Bahn; U-Bahn...4) (a container for a semi-liquid substance which is got out by squeezing: I must buy a tube of toothpaste.) die Tube•- academic.ru/76956/tubing">tubing- tubular* * *ninner \tube Schlauch mbronchial \tubes Bronchien plto have one's \tubes tied sich akk unfruchtbar machen lassen▪ the \tube die [Londoner] U-Bahn7.* * *[tjuːb]n1) (= pipe) Rohr nt; (of rubber, plastic) Schlauch m; (= speaking tube) Sprachrohr nt; (= torpedo tube) (Torpedo)rohr ntto go down the tubes (fig inf) — den Bach runtergehen (inf)
3) (Brit: London underground) U-Bahn fto travel by tube — mit der U-Bahn fahren
the tube ( US inf ) — die Glotze (inf)
* * *A s1. Rohr (-leitung f) n, Röhre f:go down the tube(s) bes US umg den Bach runtergehen2. (Glas- etc) Röhrchen n4. Tube f (Zahnpasta etc):tube colo(u)rs Tubenfarben5. ANAT Tube f:a) allg Röhre f, Kanal mb) engS. Eileiter mtube station U-Bahnhof m;tube train U-Bahn-Zug m8. ELEK Röhre f:10. obs Tubus m, Fernrohr n11. Aus sla) Flasche f Bierb) Dose f BierB v/t1. TECH mit Röhren versehen2. (durch Röhren) befördern3. in Tuben abfüllen4. röhrenförmig machen* * *noun1) (for conveying liquids etc.) Rohr, das3) (Anat., Zool.) Röhre, diewatch the tube — vor der Röhre sitzen (ugs.)
* * *(London underground railway) expr.Untergrundbahn f. (drain) n.Kanüle -n f. n.Rohr -e n.Röhre -n f.Schlauch -¨e m. -
4 coupling
сцепление; фрикцион; муфта; зубчатая муфта; кулачковая муфта; муфта сцепления; защёлка; собачка; кулак; сопряжение; сочленение (напр. шарнирного устройства); связь (по радио); взаимосвязь; взаимодействие; сцепной прибор; сцепка; цепной замок; стяжка; спаривание; соединение; соединительное звено (напр. цепи); стыковка; связывание; увязка; внедрение; доведение (результатов исследований); II соединительный; связывающий- coupling bar - coupling between oscillations - coupling cable - coupling component - coupling cone - coupling connector - coupling device - coupling edge - coupling end - coupling engagement - coupling error - coupling face - coupling fitting - coupling flange - coupling fork - coupling gasket - coupling half - coupling head - coupling hitch - coupling hook - coupling joint - coupling lever - coupling lifter - coupling link - coupling lock - coupling mechanism - coupling member - coupling nut - coupling of Asiatic profile - coupling of European profile - coupling of pipeline - coupling of pipeline sections - coupling of serie B - coupling pawl - coupling piece - coupling pipe - coupling point - coupling power - coupling ring - coupling rod - coupling screw - coupling screwing-on - coupling shaft - coupling site - coupling size - coupling sleeve - coupling socket - coupling spindle - coupling system - coupling unit - coupling with resilient members - coupling with rubber bushings - adapter coupling - additional coupling - air hose coupling - air-line coupling - ajax flexible coupling - annular coupling - Bibly coupling - capacitive coupling - cascade coupling - cased-muff coupling - clamp shaft coupling - cone coupling - cone-vice coupling - control coupling - cross coupling - cross sliding coupling - curvex coupling - Curvic coupling - cylindrical single-piece body coupling - diaphragm coupling - direct coupling- disk- disengaging coupling - dog coupling - double tapered coupling - double universal coupling - dresser coupling - drum disconnect coupling - eddy current coupling - elastic coupling - electric coupling - electrical coupling - electromagnetic coupling - expanding coupling - expansible coupling - expansion coupling - extension coupling - face tooth coupling - Falk coupling - fast coupling - feedback coupling - female threaded swivel coupling - fire-hose coupling - fixed coupling - fixed Curvic coupling - flange coupling - flanged coupling - flare quick tapered coupling from nickel-plated brass - flexible coupling - flexible block coupling - floating coupling - fluid coupling - fluid coupling adjustable by variable configuration of working space - fluid coupling adjustable by variable filling - fluid coupling with circulation - fluid coupling without circulation - fluid coupling without support - fluid drive coupling - fluted coupling - friction cone coupling - friction coupling - friction clutch coupling - full-floating coupling - funnel coupling - gear coupling - gear tooth-type coupling - gum coupling - hardened coupling - Hirth coupling - Hirth gear coupling - Hirth-ring coupling - Hirth tooth coupling - holdfast coupling - hydraulic coupling - hysteresis coupling - gas male threaded quick coupling - induction coupling - infused emitter coupling - interstage coupling - inverse coupling - jaw coupling - joint coupling - joint-type coupling - keyed coupling - lamination coupling - leather-belt coupling - leather-link coupling - link coupling - load limiting fluid coupling - loading coupling - loose coupling - loose-sliding coupling - Lord coupling - lub'air quick coupling - magnetic coupling - magnetic particle coupling - main coupling - make-and-break coupling - master control coupling - mixed coupling - movable coupling - muff coupling - multidisk coupling - needle coupling - nonlinear coupling - Oldham coupling - Oldum coupling - olive coupling for steel- copper- optimum coupling - overload coupling - parallel two-space fluid coupling - pawl coupling - permanent coupling - permanent shaft coupling - pill-to-pin coupling - pin coupling - pin-and-bushing flexible coupling - pin flexible coupling - pipe coupling - pivot-type coupling - plate coupling - plate-type coupling - pneumatic coupling - powder coupling - pressure coupling - prolac standard coupling with pushbutton for quick disconnection - protecting fluid coupling - pull rod coupling - push-connect air coupling - quick-acting coupling - quick-action coupling - quick-connect coupling - quick olive coupling for compressed air- water- quick-release coupling - rapid coupling - ratchet coupling - reducer coupling - reducing coupling - releasing Curvic coupling - resilient-material coupling - ribbed clamp coupling - rigid coupling - ring coupling - ring compression coupling - rod coupling - rod reducing coupling - roller chain flexible coupling - rope coupling - rotary coupling - rubber annulus coupling - rubber-packed coupling - rubber spider coupling - rubber tire coupling - safety coupling - scoop controlled fluid coupling - screw coupling - screwed coupling - self-aligning coupling - Sellers coupling - semipermanent coupling - semiuniversal Curvic coupling - series two-space fluid coupling - shaft coupling - shear-pin coupling - shift Curvic coupling - single-space fluid coupling - single-support fluid coupling - single universal coupling - sleeve coupling - sleeve-type coupling - slider coupling - sliding coupling - slip coupling - slip joint coupling - solid coupling - spiral jaw coupling - spline coupling - split coupling - split muff coupling - spring coupling - spring-loaded coupling - square-jaw coupling - star coupling - starting-breaking fluid coupling - starting fluid coupling - stationary coupling - straight pipe coupling - stud-retained coupling - sucker-rod coupling - swivel coupling - swivel hose quick release safety coupling - synchronous coupling - teflon-coated tapered threaded male quick release safety coupling - thimble coupling - threaded coupling - threadless coupling - through coupling - tight coupling - toothed coupling - toothed face coupling - tooth ring coupling - tooth-type coupling - torque coupling - trailer coupling - tube coupling - tubing coupling - turned-down coupling - turntable coupling - two-space fluid coupling - two-support fluid coupling - union coupling - universal coupling - universal spindle coupling - variable coupling - vernier coupling - viscous coupling - weak coupling - Westinghouse-Nuttall coupling - working control coupling - zigzag spring coupling -
5 tube
[tjuːb] [AE tuːb] 1.1) (cylinder) tubo m.2) (container for toothpaste, glue etc.) tubetto m.3) BE colloq. (means of transport) metropolitana f. (di Londra)4) AE colloq. (TV) tele f., televisione f.5) (in TV set) tubo m.2.••to go down the tubes — [ plans] andare a rotoli; [ economy] andare a rotoli, in rovina
* * *[tju:b]1) (a long, low cylinder-shaped object through which liquid can pass; a pipe: The water flowed through a rubber tube; a glass tube.) tubo2) (an organ of this kind in animals or plants.) canale, tuba, tromba3) (an underground railway (especially in London): I go to work on the tube / by tube; ( also adjective) a tube train/station.) metropolitana4) (a container for a semi-liquid substance which is got out by squeezing: I must buy a tube of toothpaste.) tubetto•- tubing- tubular* * *[tjuːb] [AE tuːb] 1.1) (cylinder) tubo m.2) (container for toothpaste, glue etc.) tubetto m.3) BE colloq. (means of transport) metropolitana f. (di Londra)4) AE colloq. (TV) tele f., televisione f.5) (in TV set) tubo m.2.••to go down the tubes — [ plans] andare a rotoli; [ economy] andare a rotoli, in rovina
-
6 Dunlop, John Boyd
SUBJECT AREA: Land transport[br]b. 5 February 1840 Dreghorn, Ayrshire, Scotlandd. 23 October 1921 Ballsbridge, Dublin, Ireland[br]Scottish inventor and pioneer of the pneumatic tyre.[br]Reared in an agricultural community, Dunlop became a qualified veterinary surgeon and practised successfully in Edinburgh and then in Belfast when he moved there in 1867. In October 1887, Dunlop's 9-year-old son complained of the rough ride he experienced with his tricycle over the cobbled streets of Belfast. Dunlop devised and fitted rubber air tubes, held on to a wooden ring by tacking a linen covering which he fixed around the wheels of the tricycle. A marked improvement in riding quality was noted. After further development, a new tricycle was ordered, with the new airtube wheels. This was so successful that Dunlop applied for a patent on 23 July 1889, granted on 7 December. With tyres made in Edinburgh to his specification, bicycles were manufactured by Edlin \& Co. of Belfast and put on sale complete with pneumatic tyres. The successful performance of a racing bicycle thus equipped inspired an unsuccessful competitor, William Harvey de Cros, who had used a solid-tyred machine, to take an interest in Dunlop's invention. With Dunlop, he refloated a company in Dublin, the Pneumatic Tyre \& Booth's Cycle Agency. Dunlop made over his patents, for the tyre, valves, rims and fixing methods, to Du Cros and took shares in the company. Although he was involved in it for many years, it was Du Cros who steered the company through several struggles to success.The pneumatic tyre revolutionized cycling and made possible the success of the motor vehicle, although Dunlop did not profit greatly from his invention. After the sale of the company in 1896, to E.T.Hooley for $3 million, he took no further part in the development of the pneumatic tyre. The company went on to become the great Dunlop Rubber Company.[br]Further ReadingJ.McClintock, 1923, History of the Pneumatic Tyre, Belfast (written by Dunlop's daughter, who based the book on her father's reminiscences).LRD -
7 tube
tju:b1) (a long, low cylinder-shaped object through which liquid can pass; a pipe: The water flowed through a rubber tube; a glass tube.) rør, slange2) (an organ of this kind in animals or plants.) kanal, kar, rør3) (an underground railway (especially in London): I go to work on the tube / by tube; ( also adjective) a tube train/station.) tunnel-/undergrunnsbane4) (a container for a semi-liquid substance which is got out by squeezing: I must buy a tube of toothpaste.) tube•- tubing- tubularrør--------slange--------undergrunnsbaneIsubst. \/tjuːb\/1) rør2) ( også teknikk) tube3) slange4) ( militærvesen) fengrør5) (britisk, hverdagslig) T-bane, tunnelbane, undergrunnsbane6) tunnel for undergrunnsbane7) (austr., hverdagslig) ølboks• hand me a tube of lager, will you?8) (radio, TV e.l., også picture tube) bilderør9) ( anatomi eller biologi) rør, kanal, kar11) ( gammeldags) teleskopby tube med rørpostgo by tube ( hverdagslig) reise med T-banengo down the tube(s) gå den veien høna sparker, gå ad undastake the tube ( hverdagslig) ta T-banenIIverb \/tjuːb\/1) forsyne med rør, legge rør i2) gjøre rørformet -
8 tubing
noun ((material for) a length or system of tubes: two metres of tubing.) rør(stykke)subst. \/ˈtjuːbɪŋ\/1) rør2) slange(r)3) rørledning(er), rørsystem, røropplegg4) rørinstallasjon, rørlegging5) rørfabrikasjon, rørmaterialer6) ( tekstilfag) rundvevd stoff -
9 tube
[tju:b]1) (a long, low cylinder-shaped object through which liquid can pass; a pipe: The water flowed through a rubber tube; a glass tube.) tubo2) (an organ of this kind in animals or plants.) canal3) (an underground railway (especially in London): I go to work on the tube / by tube; ( also adjective) a tube train/station.) metropolitano4) (a container for a semi-liquid substance which is got out by squeezing: I must buy a tube of toothpaste.) bisnaga•- tubing- tubular* * *[tju:b] n 1 tubo, cano. 2 bisnaga, tubo. 3 túnel para trem subterrâneo. 4 trem subterrâneo. 5 válvula eletrônica. 6 cilindro, tubuladura, qualquer objeto tubiforme. 7 sl televisão. to tube it sl ser reprovado em exame ou curso. to go down the tubes arruinar-se, fracassar. -
10 tubing
См. также в других словарях:
Rubber Ducky antenna — on a transceiver The Rubber Ducky antenna (or Rubber Duck aerial) is an electrically short monopole antenna which functions somewhat like a base loaded whip antenna and is sealed in a rubber or plastic jacket to protect the antenna.[1]… … Wikipedia
Natural rubber — Rubber and India rubber redirect here. For other uses, see Rubber (disambiguation). This article is about the polymeric material natural rubber. For man made rubber materials, see Synthetic rubber. Latex being collected from a tapped rubber tree … Wikipedia
Rubber band — A rubber band (in some regions known as a binder, elastic band, lackey band, elastic blubber , laggy band or gumband ) is a short length of rubber and latex formed in the shape of a loop. Such bands are typically used to hold multiple objects… … Wikipedia
Rubber chicken — A rubber chicken is used as a prop in comedy. The phrase is also used as a description for food served at speeches, conventions, and other large meetings, and as a metaphor for speechmaking.ComedyA rubber chicken is a popular sight gag and… … Wikipedia
Danang Rubber Company — Type Public Industry Manufacturing Headquarters Danang city, Vietnam Products Motor Vehicle Tires Website … Wikipedia
Butyl rubber — mdash;also known as polyisobutylene and PIB (C4H8)n is a synthetic rubber, a homopolymer of 2 methyl 1 propene. Polyisobutylene is produced by polymerization of about 98% of isobutylene with about 2% of isoprene. Structurally, polyisobutylene… … Wikipedia
butyl rubber — /bjutəl ˈrʌbə/ (say byoohtuhl rubuh) noun a synthetic rubber, prepared by polymerisation of butylene containing a little butadiene, used for inner tubes of motor vehicle tyres because of its airtight qualities. {trademark} …
Sponge rubber ball (Taprogge System) — A sponge rubber ball serves for tube cleaning and is used for removing fouling from the tubes of shell and tube heat exchangers in general and from the cooling tubes of condensers in particular. For this purpose the ball is used in quantities… … Wikipedia
Silicone rubber — is a polymer that has a backbone of silicon oxygen linkages, the same bond that is found in quartz, glass and sand. Normally, heat is required to vulcanise (set) the silicone rubber; this is normally carried out in a two stage process at the… … Wikipedia
Injection molding of liquid silicone rubber — (LSR) is a process to produce pliable, durable parts in high volume.Liquid silicone rubber is a high purity platinum cured silicone with low compression set, great stability and ability to resist extreme temperatures of heat and cold ideally… … Wikipedia
Redfern v Dunlop Rubber Australia Ltd — Infobox Court Case name=Redfern v Dunlop Rubber Australia Ltd court=High Court of Australia date decided=25 February 1964 full name=Redfern v Dunlop Rubber Australia Ltd citations= [http://www.austlii.edu.au/au/cases/cth/high ct/110clr194.html… … Wikipedia