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1 cellulose
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2 mixed cellulose ester filter
Chemical weapons: MCEFУниверсальный русско-английский словарь > mixed cellulose ester filter
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3 химическая, термо-механическая целлюлоза (Chemical Thermo Mecanical Pulp)
Cellulose: CTMPУниверсальный русско-английский словарь > химическая, термо-механическая целлюлоза (Chemical Thermo Mecanical Pulp)
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4 целлюлоза для химического производства
Русско-английский политехнический словарь > целлюлоза для химического производства
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5 целлюлоза
* * *целлюло́за ж.1. ( клетчатка) cellulose2. ( целлюлозная масса) cellulose pulpобезво́живать целлюло́зу — dewater (the) celluloseобесцве́чивать целлюло́зу — decolorize (the) celluloseоблагора́живать целлюло́зу — refine (the) celluloseотбе́ливать целлюло́зу — bleach (the) celluloseочища́ть целлюло́зу — purify (the) celluloseпроце́живать целлюло́зу — strain (the) celluloseформова́ть целлюло́зу в полотно́ — form (the) cellulose into a continuous sheetвиско́зная целлюло́за — rayon [viscose] celluloseдлинноволокни́стая целлюло́за — long-fibre celluloseцеллюло́за для хими́ческого произво́дства — chemical celluloseдреве́сная целлюло́за — wood celluloseдреве́сная целлюло́за для произво́дства бума́ги ( бумажная масса) — woodpulpкормова́я целлюло́за — fodder celluloseкоротковолокни́стая целлюло́за — short-fibred celluloseсульфа́тная целлюло́за — sulphate celluloseсульфи́тная целлюло́за — sulphite celluloseтова́рная целлюло́за — market [commercial] celluloseхло́пковая целлюло́за — cotton [linters] pulp, cotton lintersщелочна́я целлюло́за — alkali(ne) [sodium] cellulose -
6 ацетобутират целлюлозы
[lang name="Russian"]ацетат целлюлозы, триацетат целлюлозы — cellulose acetate
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7 целлюлоза
1. ж. cellulose2. ж. cellulose pulp -
8 целлюлоза
1) General subject: cellulose2) Engineering: pulp3) Agriculture: crude fiber4) Professional term: chemical pulp5) Chemistry: cytase6) Forestry: paper pulp7) Food industry: cellulose pulp8) Ecology: wood pulp9) Polymers: chemical cellulose, chemical cotton, chemical wood pulp10) Makarov: pulp (техническая), pulp stock -
9 alfaceluloza
• alpha cellulose• chemical cellulose -
10 целлюлоза для химического производства
1) Engineering: chemical cellulose2) Chemistry: dissolving pulpУниверсальный русско-английский словарь > целлюлоза для химического производства
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11 семицеллюлоза
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12 БХТММ белёная химическая термо-механическая масса
Cellulose: BCTMP (bleached chemical thermo-mechanical pulp)Универсальный русско-английский словарь > БХТММ белёная химическая термо-механическая масса
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13 комбинированный фильтр для целлюлозы и сложных эфиров
Chemical weapons: mixed cellulose ester filterУниверсальный русско-английский словарь > комбинированный фильтр для целлюлозы и сложных эфиров
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14 химическая, термо-механическая целлюлоза
Cellulose: (Chemical Thermo Mecanical Pulp) CTMPУниверсальный русско-английский словарь > химическая, термо-механическая целлюлоза
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15 Cross, Charles Frederick
[br]b. 11 December 1855 Brentwood, Middlesex, Englandd. 15 April 1935 Hove, England[br]English chemist who contributed to the development of viscose rayon from cellulose.[br]Cross was educated at the universities of London, Zurich and Manchester. It was at Owens College, Manchester, that Cross first met E.J. Bevan and where these two first worked together on the nature of cellulose. After gaining some industrial experience, Cross joined Bevan to set up a partnership in London as analytical and consulting chemists, specializing in the chemistry and technology of cellulose and lignin. They were at the Jodrell laboratory, Kew Gardens, for a time and then set up their own laboratory at Station Avenue, Kew Gardens. In 1888, the first edition of their joint publication A Textbook of Paper-making, appeared. It went into several editions and became the standard reference and textbook on the subject. The long introductory chapter is a discourse on cellulose.In 1892, Cross, Bevan and Clayton Beadle took out their historic patent on the solution and regeneration of cellulose. The modern artificial-fibre industry stems from this patent. They made their discovery at New Court, Carey Street, London: wood-pulp (or another cheap form of cellulose) was dissolved in a mixture of carbon disulphide and aqueous alkali to produce sodium xanthate. After maturing, it was squirted through fine holes into dilute acid, which set the liquid to give spinnable fibres of "viscose". However, it was many years before the process became a commercial operation, partly because the use of a natural raw material such as wood involved variations in chemical content and each batch might react differently. At first it was thought that viscose might be suitable for incandescent lamp filaments, and C.H.Stearn, a collaborator with Cross, continued to investigate this possibility, but the sheen on the fibres suggested that viscose might be made into artificial silk. The original Viscose Spinning Syndicate was formed in 1894 and a place was rented at Erith in Kent. However, it was not until some skeins of artificial silk (a term to which Cross himself objected) were displayed in Paris that textile manufacturers began to take an interest in it. It was then that Courtaulds decided to investigate this new fibre, although it was not until 1904 that they bought the English patents and developed the first artificial silk that was later called "rayon". Cross was also concerned with the development of viscose films and of cellulose acetate, which became a rival to rayon in the form of "Celanese". He retained his interest in the paper industry and in publishing, in 1895 again collaborating with Bevan and publishing a book on Cellulose and other technical articles. He was a cultured man and a good musician. He was elected a Fellow of the Royal Society in 1917.[br]Principal Honours and DistinctionsFRS 1917.Bibliography1888, with E.J.Bevan, A Text-book of Papermaking. 1892, British patent no. 8,700 (cellulose).Further ReadingObituary Notices of the Royal Society, 1935, London. Obituary, 1935, Journal of the Chemical Society 1,337. Chambers Concise Dictionary of Scientists, 1989, Cambridge.Edwin J.Beer, 1962–3, "The birth of viscose rayon", Transactions of the Newcomen Society 35 (an account of the problems of developing viscose rayon; Beer worked under Cross in the Kew laboratories).C.Singer (ed.), 1978, A History of Technology, Vol. VI, Oxford: Clarendon Press.RLHBiographical history of technology > Cross, Charles Frederick
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16 Bevan, Edward John
[br]b. 11 December 1856 Birkenhead, Englandd. 17 October 1921 London, England[br]English co-inventor of the " viscose rayon " process for making artificial silk.[br]Bevan began his working life as a chemist in a soap works at Runcorn, but later studied chemistry at Owens College, Manchester. It was there that he met and formed a friendship with C.F. Cross, with whom he started to work on cellulose. Bevan moved to a paper mill in Scotland but then went south to London, where he and Cross set up a partnership in 1885 as consulting and analytical chemists. Their work was mainly concerned with the industrial utilization of cellulose, and with the problems of the paper and jute industries. Their joint publication, A Text-book of Paper-making, which first appeared in 1888 and went into several editions, became the standard reference and textbook on the subject. The book has a long introductory chapter on cellulose.In 1892 Cross, Bevan and Clayton Beadle discovered viscose, or sodium cellulose xanthate, and took out the patent which was to be the foundation of the "viscose rayon" industry. They had their own laboratory at Station Avenue, Kew Gardens, where they carried out much work that eventually resulted in viscose: cellulose, usually in the form of wood pulp, was treated first with caustic soda and then with carbon disulphide to form the xanthate, which was then dissolved in a solution of dilute caustic soda to produce a viscous liquid. After being aged, the viscose was extruded through fine holes in a spinneret and coagulated in a dilute acid to regenerate the cellulose as spinnable fibres. At first there was no suggestion of spinning it into fibre, but the hope was to use it for filaments in incandescent electric light bulbs. The sheen on the fibres suggested their possible use in textiles and the term "artificial silk" was later introduced. Cross and Bevan also discovered the acetate "Celanese", which was cellulose triacetate dissolved in acetone and spun in air, but both inventions needed much development before they could be produced commercially.In 1892 Bevan turned from cellulose to food and drugs and left the partnership to become Public Analyst to Middlesex County Council, a post he held until his death, although in 1895 he and Cross published their important work Cellulose. He was prominent in the affairs of the Society of Public Analysts and became one of its officials.[br]Bibliography1888, with C.F.Cross, A Text-book of Papermaking.1892, with C.F.Cross and C.Beadle, British patent no. 8,700 (viscose). 1895, with C.F.Cross, Cellulose.Further ReadingObituary, 1921, Journal of the Chemical Society.Obituary, 1921, Journal of the Society of Chemical Industry.Edwin J.Beer, 1962–3, "The birth of viscose rayon", Transactions of the Newcomen Society 35 (an account of the problems of developing viscose rayon; Beer worked under Cross in the Kew laboratories).RLH -
17 Zellstoff
m2. Material: absorbent paper* * *der Zellstoffcellulose* * *Zẹll|stoffmcellulose* * *(a soft mass of other matter, eg of wood etc from which paper is made: wood-pulp.) pulp* * *Zell·stoff[ˈtsɛlʃtɔf]m chemical pulp* * *der cellulose* * *2. Material: absorbent paper* * *der cellulose* * *(Biologie) m.pulp n. m.cellulose n.chemical wood pulp n. -
18 волокно
fiber, filament, ( древесины) grain, thread* * *волокно́ с.
fibreв направле́нии волокна́ — with grainмати́ровать волокно́ — mat fibresпаралле́льно волокну́ — parallel to grainперпендикуля́рно волокну́ — perpendicular to grainполуча́ть волокно́ по мо́крому спо́собу пряде́ния — wet-spin a fibreполуча́ть волокно́ по сухо́му спо́собу пряде́ния — dry-spin a fibreполуча́ть волокно́ пряде́нием из распла́ва — melt-spin a fibreпрода́вливать волокно́ че́рез филье́ру — extrude through a spinneretпро́тив (направле́ния) волокна́ — against grainпрясть волокно́ — spin fibresруби́ть волокно́ на шта́пель — chop [cut, break] into staple fibresволокно́ сопротивля́ется смина́нию (хорошо, плохо) — the fibre resists wrinkling (well, poorly)трепа́ть волокно́ — scutch fibresчеса́ть волокно́ — hackle fibresакри́ловое волокно́ — acrylic fibreакрилонитри́льное волокно́ — acrylonitrile fibreальгина́тное волокно́ — alginate rayonволокно́ «ани́д» — Anide polyamide fibre (Soviet brand of nylon)асбе́стовое волокно́ — asbestos fibreацета́тное волокно́ — cellulose acetate rayonбаза́льтовое волокно́ — basalt fibre, basalt woolволо́кна ба́лки мех. — fibres of beamбелко́вое волокно́ — regenerated protein fibreве́рхнее волокно́ мех. — top [upper] fibreволокно́ «вино́л» — Vinol polyvinyl fibre (proprietary brand of Soviet-made fibre)виско́зное волокно́ — viscose fibre, viscose rayonгетероцепно́е волокно́ — heterochain fibreгидратцеллюло́зное волокно́ — cellulose-regenerated fibreгольево́е волокно́ кож. — hide fibreдиацета́тное волокно́ — cellulose acetate rayonволокно́ древеси́ны ( структура дерева) — (wood) grainдреве́сное волокно́ ( получаемое из древесины) — wood [ligneous] fibreволокно́ живо́тного происхожде́ния — animal fibreволокно́ из фторопла́ста — polytetrafluorethylene [PTFE] fibreиску́сственное волокно́ — rayonиску́сственное, белко́вое волокно́ — regenerated protein fibreиску́сственное, целлюло́зное волокно́ — regenerated cellulose fibreкапро́новое волокно́ — kapron (polycaprolactam) fibre (proprietary name of a Soviet-made fibre)карбоцепно́е волокно́ — carbochain fibreволокно́ ко́жи ( структура) — leather fibreколлаге́новое волокно́ — collagen fibreко́рдное волокно́ — cordage fibreволокно́ «лавса́н» — Lavsan polyester fibre (proprietary name of a Soviet-made fibre)листово́е волокно́ — leaf fibreло́мкое волокно́ — brittle fibreлубяно́е волокно́ — bast fibreльняно́е волокно́ — flax fibreме́дно-аммиа́чное волокно́ — cuprammonuim [copper] rayonминера́льное волокно́ — mineral fibreнатура́льное волокно́ — natural fibreнезре́лое волокно́ — unripe [unmature] fibreнеоргани́ческое волокно́ — inorganic fibreволокно́ «нитро́н» — Nitron polyacrylic fibre (proprietary name of a Soviet-made fibre)нитратцеллюло́зное волокно́ — cellulose nitrate fibre, nitrate rayonопти́ческое волокно́ ( в волоконной оптике) — optical fibreоргани́ческое волокно́ — organic fibreпенько́вое волокно́ — hemp fibreперхлорвини́ловое волокно́ — perchlorovinyl fibreплодо́вое волокно́ — fruit-hair fibreполиакри́ловое волокно́ — polyacrylic fibreполиакрилонитри́ловое волокно́ — polyacrilonitrile fibreполиами́дное волокно́ — polyamide fibreполивинилакри́ловое волокно́ — polyvinyl-acrylic fibreполивинилацета́тное волокно́ — polyvinyl-acetate fibreполивини́ловое волокно́ — polyvinyl fibreполивинилспиртово́е волокно́ — polyvinyl alcohol fibre (in the USSR, manufactured under the trade name of Vinol)поливинилхлори́дное волокно́ — polyvinyl-chloride [PVC] fibreполипропиле́новое волокно́ — polypropylene fibreполистиро́льное волокно́ — polystyrene fibreполиурета́новое волокно́ — polyurethane fibreполихлорвини́ловое волокно́ — polyvinylchloride [PVC] fibreполиэтиле́новое волокно́ — polyethylene fibreполиэфи́рное волокно́ — polyester fibreпопере́чное волокно́ мех. — transverse fibreрасти́тельное волокно́ — vegetable fibreрастя́нутое волокно́ мех. — tension fibreрегенери́рованное волокно́ — regenerated fibreсеменно́е волокно́ — seed-hair fibreсжа́тое волокно́ мех. — compression fibreсинтети́ческое волокно́ ( из синтетических исходных материалов) — synthesized [synthetic(-base) ] fibreсмоли́стое волокно́ — gummy fibreстекля́нное волокно́ — glass fibreволокно́ сте́ржня мех. — fibre of a barтексти́льное волокно́ — textile fibreтексти́льное, натура́льное волокно́ — natural textile fibreтеплоизоляцио́нное волокно́ — heat-insulation fibreтехни́ческое волокно́ — industrial fibreторфяно́е волокно́ — peat fibreтриацета́тное волокно́ — cellulose triacetate fibreхими́ческое волокно́ — chemical [man-made] fibreхру́пкое волокно́ — brittle fibreшта́пельное волокно́ — staple fibre -
19 волокно
с. fibreволокно «анид» — Anide polyamide fibre
волокно «винол» — Vinol polyvinyl fibre
волокно «лавсан» — Lavsan polyester fibre
волокно «нитрон» — Nitron polyacrylic fibre
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20 Swan, Sir Joseph Wilson
[br]b. 31 October 1828 Sunderland, Englandd. 27 May 1914 Warlingham, Surrey, England[br]English chemist, inventor in Britain of the incandescent electric lamp and of photographic processes.[br]At the age of 14 Swan was apprenticed to a Sunderland firm of druggists, later joining John Mawson who had opened a pharmacy in Newcastle. While in Sunderland Swan attended lectures at the Athenaeum, at one of which W.E. Staite exhibited electric-arc and incandescent lighting. The impression made on Swan prompted him to conduct experiments that led to his demonstration of a practical working lamp in 1879. As early as 1848 he was experimenting with carbon as a lamp filament, and by 1869 he had mounted a strip of carbon in a vessel exhausted of air as completely as was then possible; however, because of residual air, the filament quickly failed.Discouraged by the cost of current from primary batteries and the difficulty of achieving a good vacuum, Swan began to devote much of his attention to photography. With Mawson's support the pharmacy was expanded to include a photographic business. Swan's interest in making permanent photographic records led him to patent the carbon process in 1864 and he discovered how to make a sensitive dry plate in place of the inconvenient wet collodian process hitherto in use. He followed this success with the invention of bromide paper, the subject of a British patent in 1879.Swan resumed his interest in electric lighting. Sprengel's invention of the mercury pump in 1865 provided Swan with the means of obtaining the high vacuum he needed to produce a satisfactory lamp. Swan adopted a technique which was to become an essential feature in vacuum physics: continuing to heat the filament during the exhaustion process allowed the removal of absorbed gases. The inventions of Gramme, Siemens and Brush provided the source of electrical power at reasonable cost needed to make the incandescent lamp of practical service. Swan exhibited his lamp at a meeting in December 1878 of the Newcastle Chemical Society and again the following year before an audience of 700 at the Newcastle Literary and Philosophical Society. Swan's failure to patent his invention immediately was a tactical error as in November 1879 Edison was granted a British patent for his original lamp, which, however, did not go into production. Parchmentized thread was used in Swan's first commercial lamps, a material soon superseded by the regenerated cellulose filament that he developed. The cellulose filament was made by extruding a solution of nitro-cellulose in acetic acid through a die under pressure into a coagulating fluid, and was used until the ultimate obsolescence of the carbon-filament lamp. Regenerated cellulose became the first synthetic fibre, the further development and exploitation of which he left to others, the patent rights for the process being sold to Courtaulds.Swan also devised a modification of Planté's secondary battery in which the active material was compressed into a cellular lead plate. This has remained the central principle of all improvements in secondary cells, greatly increasing the storage capacity for a given weight.[br]Principal Honours and DistinctionsKnighted 1904. FRS 1894. President, Institution of Electrical Engineers 1898. First President, Faraday Society 1904. Royal Society Hughes Medal 1904. Chevalier de la Légion d'Honneur 1881.Bibliography2 January 1880, British patent no. 18 (incandescent electric lamp).24 May 1881, British patent no. 2,272 (improved plates for the Planté cell).1898, "The rise and progress of the electrochemical industries", Journal of the Institution of Electrical Engineers 27:8–33 (Swan's Presidential Address to the Institution of Electrical Engineers).Further ReadingM.E.Swan and K.R.Swan, 1968, Sir Joseph Wilson Swan F.R.S., Newcastle upon Tyne (a detailed account).R.C.Chirnside, 1979, "Sir Joseph Swan and the invention of the electric lamp", IEEElectronics and Power 25:96–100 (a short, authoritative biography).GWBiographical history of technology > Swan, Sir Joseph Wilson
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