-
21 method
• -
22 Norton, Charles Hotchkiss
SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering[br]b. 23 November 1851 Plainville, Connecticut, USAd. 27 October 1942 Plainville, Connecticut, USA[br]American mechanical engineer and machine-tool designer.[br]After an elementary education at the public schools of Plainville and Thomaston, Connecticut, Charles H.Norton started work in 1866 at the Seth Thomas Clock Company in Thomaston. He was soon promoted to machinist, and further progress led to his successive appointments as Foreman, Superintendent of Machinery and Manager of the department making tower clocks. He designed many public clocks.In 1886 he obtained a position as Assistant Engineer with the Brown \& Sharpe Manufacturing Company at Providence, Rhode Island, and was engaged in redesigning their universal grinding machine to give it more rigidity and make it more suitable for use as a production machine. In 1890 he left to become a partner in a newly established firm, Leland, Faulconer \& Norton Company at Detroit, Michigan, designing and building machine tools. He withdrew from this firm in 1895 and practised as a consulting mechanical engineer for a short time before returning to Brown \& Sharpe in 1896. There he designed a grinding machine incorporating larger and wider grinding wheels so that heavier cuts could be made to meet the needs of the mass-production industries, especially the automobile industry. This required a heavier and more rigid machine and greater power, but these ideas were not welcomed at Brown \& Sharpe and in 1900 Norton left to found the Norton Grinding Company in Worcester, Massachusetts. Here he was able to develop heavy-production grinding machines, including special machines for grinding crank-shafts and camshafts for the automobile industry.In setting up the Norton Grinding Company, Charles H.Norton received financial support from members of the Norton Emery Wheel Company (also of Worcester and known after 1906 as the Norton Company), but he was not related to the founder of that company. The two firms were completely independent until 1919 when they were merged. From that time Charles H.Norton served as Chief Engineer of the machinery division of the Norton Company, until 1934 when he became their Consulting Engineer.[br]Principal Honours and DistinctionsCity of Philadelphia, John Scott Medal 1925.BibliographyNorton was granted more than one hundred patents and was author of Principles of Cylindrical Grinding, 1917, 1921, Worcester, Mass.Further ReadingRobert S.Woodbury, 1959, History of the Grinding Machine, Cambridge, Mass, (contains biographical information and details of the machines designed by Norton).RTSBiographical history of technology > Norton, Charles Hotchkiss
-
23 Champion, William
SUBJECT AREA: Metallurgy[br]b. 1710 Bristol, Englandd. 1789 England[br]English metallurgist, the first to produce metallic zinc in England on an industrial scale.[br]William, the youngest of the three sons of Nehemiah Champion, stemmed from a West Country Quaker family long associated with the metal trades. His grandfather, also called Nehemiah, had been one of Abraham Darby's close Quaker friends when the brassworks at Baptist Mills was being established in 1702 and 1703. Nehemiah II took over the management of these works soon after Darby went to Coalbrookdale, and in 1719, as one of a group of Bristol copper smelters, he negotiated an agreement with Lord Falmouth to develop copper mines in the Redruth area in Cornwall. In 1723 he was granted a patent for a cementation brass-making process using finely granulated copper rather than the broken fragments of massive copper hitherto employed.In 1730 he returned to Bristol after a tour of European metallurgical centres, and he began to develop an industrial process for the manufacture of pure zinc ingots in England. Metallic zinc or spelter was then imported at great expense from the Far East, largely for the manufacture of copper alloys of golden colour used for cheap jewellery. The process William developed, after six years of experimentation, reduced zinc oxide with charcoal at temperatures well above the boiling point of zinc. The zinc vapour obtained was condensed rapidly to prevent reoxidation and finally collected under water. This process, patented in 1738, was operated in secret until 1766 when Watson described it in his Chemical Essays. After encountering much opposition from the Bristol merchants and zinc importers, William decided to establish his own integrated brassworks at Warmley, five meals east of Bristol. The Warmley plant began to produce in 1748 and expanded rapidly. By 1767, when Warmley employed about 2,000 men, women and children, more capital was needed, requiring a Royal Charter of Incorporation. A consortium of Champion's competitors opposed this and secured its refusal. After this defeat William lost the confidence of his fellow directors, who dismissed him. He was declared bankrupt in 1769 and his works were sold to the British Brass Company, which never operated Warmley at full capacity, although it produced zinc on that site until 1784.[br]Bibliography1723, British patent no. 454 (cementation brass-making process).1738, British patent no. 564 (zinc ingot production process).1767, British patent no. 867 (brass manufacture wing zinc blende).Further ReadingJ.Day, 1973, Bristol Brass: The History of the Industry, Newton Abbot: David \& Charles.A.Raistrick, 1970, Dynasty of Ironfounders: The Darbys and Coalbrookdale, Newton Abbot: David \& Charles.J.R.Harris, 1964, The Copper King, Liverpool University Press.ASD -
24 Strutt, Jedediah
SUBJECT AREA: Textiles[br]b. 26 July 1726 South Normanton, near Alfreton, Derbyshire, Englandd. 7 May 1797 Derby, England[br]English inventor of a machine for making ribbed knitting.[br]Jedediah Strutt was the second of three sons of William, a small farmer and maltster at South Normanton, near Alfreton, Derbyshire, where the only industry was a little framework knitting. At the age of 14 Jedediah was apprenticed to Ralph Massey, a wheelwright near Derby, and lodged with the Woollats, whose daughter Elizabeth he later married in 1755. He moved to Leicester and in 1754 started farming at Blackwell, where an uncle had died and left him the stock on his farm. It was here that he made his knitting invention.William Lee's knitting machine remained in virtually the same form as he left it until the middle of the eighteenth century. The knitting industry moved away from London into the Midlands and in 1730 a Nottingham workman, using Indian spun yarn, produced the first pair of cotton hose ever made by mechanical means. This industry developed quickly and by 1750 was providing employment for 1,200 frameworkers using both wool and cotton in the Nottingham and Derby areas. It was against this background that Jedediah Strutt obtained patents for his Derby rib machine in 1758 and 1759.The machine was a highly ingenious mechanism, which when placed in front of an ordinary stocking frame enabled the fashionable ribbed stockings to be made by machine instead of by hand. To develop this invention, he formed a partnership first with his brother-in-law, William Woollat, and two leading Derby hosiers, John Bloodworth and Thomas Stamford. This partnership was dissolved in 1762 and another was formed with Woollat and the Nottingham hosier Samuel Need. Strutt's invention was followed by a succession of innovations which enabled framework knitters to produce almost every kind of mesh on their machines. In 1764 the stocking frame was adapted to the making of eyelet holes, and this later lead to the production of lace. In 1767 velvet was made on these frames, and two years later brocade. In this way Strutt's original invention opened up a new era for knitting. Although all these later improvements were not his, he was able to make a fortune from his invention. In 1762 he was made a freeman of Nottingham, but by then he was living in Derby. His business at Derby was concerned mainly with silk hose and he had a silk mill there.It was partly his need for cotton yarn and partly his wealth which led him into partnership with Richard Arkwright, John Smalley and David Thornley to exploit Arkwright's patent for spinning cotton by rollers. Together with Samuel Need, they financed the Arkwright partnership in 1770 to develop the horse-powered mill in Nottingham and then the water-powered mill at Cromford. Strutt gave advice to Arkwright about improving the machinery and helped to hold the partnership together when Arkwright fell out with his first partners. Strutt was also involved, in London, where he had a house, with the parliamentary proceedings over the passing of the Calico Act in 1774, which opened up the trade in British-manufactured all-cotton cloth.In 1776 Strutt financed the construction of his own mill at Helper, about seven miles (11 km) further down the Derwent valley below Cromford. This was followed by another at Milford, a little lower on the river. Strutt was also a partner with Arkwright and others in the mill at Birkacre, near Chorley in Lancashire. The Strutt mills were developed into large complexes for cotton spinning and many experiments were later carried out in them, both in textile machinery and in fireproof construction for the mills themselves. They were also important training schools for engineers.Elizabeth Strutt died in 1774 and Jedediah never married again. The family seem to have lived frugally in spite of their wealth, probably influenced by their Nonconformist background. He had built a house near the mills at Milford, but it was in his Derby house that Jedediah died in 1797. By the time of his death, his son William had long been involved with the business and became a more important cotton spinner than Jedediah.[br]Bibliography1758. British patent no. 722 (Derby rib machine). 1759. British patent no. 734 (Derby rib machine).Further ReadingFor the involvement of Strutt in Arkwright's spinning ventures, there are two books, the earlier of which is R.S.Fitton and A.P.Wadsworth, 1958, The Strutts and the Arkwrights, 1758–1830, Manchester, which has most of the details about Strutt's life. This has been followed by R.S.Fitton, 1989, The Arkwrights, Spinners of Fortune, Manchester.R.L.Hills, 1970, Power in the Industrial Revolution, Manchester (for a general background to the textile industry of the period).W.Felkin, 1967, History of the Machine-wrought Hosiery and Lace Manufactures, reprint, Newton Abbot (orig. pub. 1867) (covers Strutt's knitting inventions).RLH -
25 cooperation
n3) кооперация
- all-round cooperation
- bilateral cooperation
- broad cooperation
- business cooperation
- close cooperation
- compensatory cooperation
- consumer cooperation
- contract-based cooperation
- credit cooperation
- currency cooperation
- diversified cooperation
- economic cooperation
- effective cooperation
- equal cooperation
- equitable cooperation
- extensive cooperation
- financial cooperation
- fiscal cooperation
- foreign economic cooperation
- fruitful cooperation
- growing cooperation
- industrial cooperation
- integrated cooperation
- interfirm cooperation
- international cooperation
- interplant cooperation
- interstate cooperation
- intrabranch cooperation
- intrasectoral cooperation
- investment cooperation
- large-scale cooperation
- long-term cooperation
- manufacturing cooperation
- marketing cooperation
- monetary cooperation
- monetary and financial cooperation
- multilateral cooperation
- mutually beneficial cooperation
- mutually profitable cooperation
- production cooperation
- scientific cooperation
- simple cooperation
- team cooperation
- technical cooperation
- technological cooperation
- cooperation by contract
- cooperation in agriculture
- cooperation in production
- cooperation in science
- cooperation on a commercial basis
- cooperation on a compensation basis
- cooperation on a gratuitous basis
- cooperation on a project
- cooperation on a turnkey basis
- broaden cooperation
- carry on cooperation
- develop cooperation
- effect cooperation
- expand cooperation
- extend cooperation
- intensify cooperation
- maintain cooperation
- reinforce cooperation
- undermine cooperationEnglish-russian dctionary of contemporary Economics > cooperation
-
26 expand
1. v расширять, развивать, распространять2. v расширяться, развиваться, распространяться; расти3. v увеличивать; расширять4. v увеличиваться; раздаваться5. v развёртывать; распускать6. v развёртываться, растягиваться7. v расправлять8. v раскидывать9. v раскрываться, распускаться10. v развёртывать; доводить; увеличивать11. v расширяться, превращаться, переходить, перерастатьthe river expanded into a lake — река стала озером, река превратилась в озеро
12. v излагать подробно; распространяться13. v становиться более общительным, сердечным, откровенным14. v тех. развёртывать, развальцовывать15. v мат. разлагатьСинонимический ряд:1. broaden (verb) broaden; extend; widen2. extent (verb) aggrandize; amplify; bloat; develop; dilate; distend; elaborate; enlarge; explain; explicate; extent; inflate; labour3. increase (verb) aggrandise; augment; beef up; boost; build; build up; burgeon; compound; escalate; grow; heighten; increase; magnify; manifold; mount; multiply; plus; push; rise; run up; snowball; swell; upsurge; wax4. open (verb) extend; fan out; open; outspread; outstretch; spread; unfold; unfurl; unravelАнтонимический ряд:abbreviate; attenuate; condense; contract; curtail; decrease; fold; restrict; shrink -
27 Chevenard, Pierre Antoine Jean Sylvestre
SUBJECT AREA: Metallurgy[br]b. 31 December 1888 Thizy, Rhône, Franced. 15 August 1960 Fontenoy-aux-Roses, France[br]French metallurgist, inventor of the alloys Elinvar and Platinite and of the method of strengthening nickel-chromium alloys by a precipitate ofNi3Al which provided the basis of all later super-alloy development.[br]Soon after graduating from the Ecole des Mines at St-Etienne in 1910, Chevenard joined the Société de Commentry Fourchambault et Decazeville at their steelworks at Imphy, where he remained for the whole of his career. Imphy had for some years specialized in the production of nickel steels. From this venture emerged the first austenitic nickel-chromium steel, containing 6 per cent chromium and 22–4 per cent nickel and produced commercially in 1895. Most of the alloys required by Guillaume in his search for the low-expansion alloy Invar were made at Imphy. At the Imphy Research Laboratory, established in 1911, Chevenard conducted research into the development of specialized nickel-based alloys. His first success followed from an observation that some of the ferro-nickels were free from the low-temperature brittleness exhibited by conventional steels. To satisfy the technical requirements of Georges Claude, the French cryogenic pioneer, Chevenard was then able in 1912 to develop an alloy containing 55–60 per cent nickel, 1–3 per cent manganese and 0.2–0.4 per cent carbon. This was ductile down to −190°C, at which temperature carbon steel was very brittle.By 1916 Elinvar, a nickel-iron-chromium alloy with an elastic modulus that did not vary appreciably with changes in ambient temperature, had been identified. This found extensive use in horology and instrument manufacture, and even for the production of high-quality tuning forks. Another very popular alloy was Platinite, which had the same coefficient of thermal expansion as platinum and soda glass. It was used in considerable quantities by incandescent-lamp manufacturers for lead-in wires. Other materials developed by Chevenard at this stage to satisfy the requirements of the electrical industry included resistance alloys, base-metal thermocouple combinations, magnetically soft high-permeability alloys, and nickel-aluminium permanent magnet steels of very high coercivity which greatly improved the power and reliability of car magnetos. Thermostatic bimetals of all varieties soon became an important branch of manufacture at Imphy.During the remainder of his career at Imphy, Chevenard brilliantly elaborated the work on nickel-chromium-tungsten alloys to make stronger pressure vessels for the Haber and other chemical processes. Another famous alloy that he developed, ATV, contained 35 per cent nickel and 11 per cent chromium and was free from the problem of stress-induced cracking in steam that had hitherto inhibited the development of high-power steam turbines. Between 1912 and 1917, Chevenard recognized the harmful effects of traces of carbon on this type of alloy, and in the immediate postwar years he found efficient methods of scavenging the residual carbon by controlled additions of reactive metals. This led to the development of a range of stabilized austenitic stainless steels which were free from the problems of intercrystalline corrosion and weld decay that then caused so much difficulty to the manufacturers of chemical plant.Chevenard soon concluded that only the nickel-chromium system could provide a satisfactory basis for the subsequent development of high-temperature alloys. The first published reference to the strengthening of such materials by additions of aluminium and/or titanium occurs in his UK patent of 1929. This strengthening approach was adopted in the later wartime development in Britain of the Nimonic series of alloys, all of which depended for their high-temperature strength upon the precipitated compound Ni3Al.In 1936 he was studying the effect of what is now known as "thermal fatigue", which contributes to the eventual failure of both gas and steam turbines. He then published details of equipment for assessing the susceptibility of nickel-chromium alloys to this type of breakdown by a process of repeated quenching. Around this time he began to make systematic use of the thermo-gravimetrie balance for high-temperature oxidation studies.[br]Principal Honours and DistinctionsPresident, Société de Physique. Commandeur de la Légion d'honneur.Bibliography1929, Analyse dilatométrique des matériaux, with a preface be C.E.Guillaume, Paris: Dunod (still regarded as the definitive work on this subject).The Dictionary of Scientific Biography lists around thirty of his more important publications between 1914 and 1943.Further Reading"Chevenard, a great French metallurgist", 1960, Acier Fins (Spec.) 36:92–100.L.Valluz, 1961, "Notice sur les travaux de Pierre Chevenard, 1888–1960", Paris: Institut de France, Académie des Sciences.ASDBiographical history of technology > Chevenard, Pierre Antoine Jean Sylvestre
-
28 De Forest, Lee
SUBJECT AREA: Broadcasting, Electronics and information technology, Photography, film and optics, Recording, Telecommunications[br]b. 26 August 1873 Council Bluffs, Iowa, USAd. 30 June 1961 Hollywood, California, USA[br]American electrical engineer and inventor principally known for his invention of the Audion, or triode, vacuum tube; also a pioneer of sound in the cinema.[br]De Forest was born into the family of a Congregational minister that moved to Alabama in 1879 when the father became President of a college for African-Americans; this was a position that led to the family's social ostracism by the white community. By the time he was 13 years old, De Forest was already a keen mechanical inventor, and in 1893, rejecting his father's plan for him to become a clergyman, he entered the Sheffield Scientific School of Yale University. Following his first degree, he went on to study the propagation of electromagnetic waves, gaining a PhD in physics in 1899 for his thesis on the "Reflection of Hertzian Waves from the Ends of Parallel Wires", probably the first US thesis in the field of radio.He then joined the Western Electric Company in Chicago where he helped develop the infant technology of wireless, working his way up from a modest post in the production area to a position in the experimental laboratory. There, working alone after normal working hours, he developed a detector of electromagnetic waves based on an electrolytic device similar to that already invented by Fleming in England. Recognizing his talents, a number of financial backers enabled him to set up his own business in 1902 under the name of De Forest Wireless Telegraphy Company; he was soon demonstrating wireless telegraphy to interested parties and entering into competition with the American Marconi Company.Despite the failure of this company because of fraud by his partners, he continued his experiments; in 1907, by adding a third electrode, a wire mesh, between the anode and cathode of the thermionic diode invented by Fleming in 1904, he was able to produce the amplifying device now known as the triode valve and achieve a sensitivity of radio-signal reception much greater than possible with the passive carborundum and electrolytic detectors hitherto available. Patented under the name Audion, this new vacuum device was soon successfully used for experimental broadcasts of music and speech in New York and Paris. The invention of the Audion has been described as the beginning of the electronic era. Although much development work was required before its full potential was realized, the Audion opened the way to progress in all areas of sound transmission, recording and reproduction. The patent was challenged by Fleming and it was not until 1943 that De Forest's claim was finally recognized.Overcoming the near failure of his new company, the De Forest Radio Telephone Company, as well as unsuccessful charges of fraudulent promotion of the Audion, he continued to exploit the potential of his invention. By 1912 he had used transformer-coupling of several Audion stages to achieve high gain at radio frequencies, making long-distance communication a practical proposition, and had applied positive feedback from the Audion output anode to its input grid to realize a stable transmitter oscillator and modulator. These successes led to prolonged patent litigation with Edwin Armstrong and others, and he eventually sold the manufacturing rights, in retrospect often for a pittance.During the early 1920s De Forest began a fruitful association with T.W.Case, who for around ten years had been working to perfect a moving-picture sound system. De Forest claimed to have had an interest in sound films as early as 1900, and Case now began to supply him with photoelectric cells and primitive sound cameras. He eventually devised a variable-density sound-on-film system utilizing a glow-discharge modulator, the Photion. By 1926 De Forest's Phonofilm had been successfully demonstrated in over fifty theatres and this system became the basis of Movietone. Though his ideas were on the right lines, the technology was insufficiently developed and it was left to others to produce a system acceptable to the film industry. However, De Forest had played a key role in transforming the nature of the film industry; within a space of five years the production of silent films had all but ceased.In the following decade De Forest applied the Audion to the development of medical diathermy. Finally, after spending most of his working life as an independent inventor and entrepreneur, he worked for a time during the Second World War at the Bell Telephone Laboratories on military applications of electronics.[br]Principal Honours and DistinctionsInstitute of Electronic and Radio Engineers Medal of Honour 1922. President, Institute of Electronic and Radio Engineers 1930. Institute of Electrical and Electronics Engineers Edison Medal 1946.Bibliography1904, "Electrolytic detectors", Electrician 54:94 (describes the electrolytic detector). 1907, US patent no. 841,387 (the Audion).1950, Father of Radio, Chicago: WIlcox \& Follett (autobiography).De Forest gave his own account of the development of his sound-on-film system in a series of articles: 1923. "The Phonofilm", Transactions of the Society of Motion Picture Engineers 16 (May): 61–75; 1924. "Phonofilm progress", Transactions of the Society of Motion Picture Engineers 20:17–19; 1927, "Recent developments in the Phonofilm", Transactions of the Society of Motion Picture Engineers 27:64–76; 1941, "Pioneering in talking pictures", Journal of the Society of Motion Picture Engineers 36 (January): 41–9.Further ReadingG.Carneal, 1930, A Conqueror of Space (biography).I.Levine, 1964, Electronics Pioneer, Lee De Forest (biography).E.I.Sponable, 1947, "Historical development of sound films", Journal of the Society of Motion Picture Engineers 48 (April): 275–303 (an authoritative account of De Forest's sound-film work, by Case's assistant).W.R.McLaurin, 1949, Invention and Innovation in the Radio Industry.C.F.Booth, 1955, "Fleming and De Forest. An appreciation", in Thermionic Valves 1904– 1954, IEE.V.J.Phillips, 1980, Early Radio Detectors, London: Peter Peregrinus.KF / JW -
29 Henry, Joseph
[br]b. 17 December 1797 Albany, New York, USAd. 13 May 1878 Washington, DC, USA[br]American scientist after whom the unit of inductance is named.[br]Sent to stay with relatives at the age of 6 because of the illness of his father, when the latter died in 1811 Henry was apprenticed to a silversmith and then turned to the stage. Whilst he was ill himself, a book on science fired his interest and he began studying at Albany Academy, working as a tutor to finance his studies. Initially intending to pursue medicine, he then spent some time as a surveyor before becoming Professor of Mathematics and Natural Philosophy at Albany Academy in 1826. There he became interested in the improvement of electromagnets and discovered that the use of an increased number of turns of wire round the core greatly increased their power; by 1831 he was able to supply to Yale a magnet capable of lifting almost a ton weight. During this time he also discovered the principles of magnetic induction and self-inductance. In the same year he made, but did not patent, a cable telegraph system capable of working over a distance of 1 mile (1.6 km). It was at this time, too, that he found that adiabatic expansion of gases led to their sudden cooling, thus paving the way for the development of refrigerators. For this he was recommended for, but never received, the Copley Medal of the Royal Society. Five years later he became Professor of Natural Philosophy at New Jersey College (later Princeton University), where he deduced the laws governing the operation of transformers and observed that changes in magnetic flux induced electric currents in conductors. Later he also observed that spark discharges caused electrical effects at a distance. He therefore came close to the discovery of radio waves. In 1836 he was granted a year's leave of absence and travelled to Europe, where he was able to meet Michael Faraday. It was with his help that in 1844 Samuel Morse set up the first patented electric telegraph, but, sadly, the latter seems to have reaped all the credit and financial rewards. In 1846 he became the first secretary of the Washington Smithsonian Institute and did much to develop government support for scientific research. As a result of his efforts some 500 telegraph stations across the country were equipped with meteorological equipment to supply weather information by telegraph to a central location, a facility that eventually became the US National Weather Bureau. From 1852 he was a member of the Lighthouse Board, contributing to improvements in lighting and sound warning systems and becoming its chairman in 1871. During the Civil War he was a technical advisor to President Lincoln. He was a founder of the National Academy of Science and served as its President for eleven years.[br]Principal Honours and DistinctionsPresident, American Association for the Advancement of Science 1849. President, National Academy of Science 1893–1904. In 1893, to honour his work on induction, the International Congress of Electricians adopted the henry as the unit of inductance.Bibliography1824. "On the chemical and mechanical effects of steam". 1825. "The production of cold by the rarefaction of air".1832, "On the production of currents \& sparks of electricity \& magnetism", AmericanJournal of Science 22:403."Theory of the so-called imponderables", Proceedings of the American Association for the Advancement of Science 6:84.Further ReadingSmithsonian Institution, 1886, Joseph Henry, Scientific Writings, Washington DC.KF -
30 Polhem, Christopher
SUBJECT AREA: Mining and extraction technology[br]b. 18 December 1661 Tingstade, Gotland, Sweden d. 1751[br]Swedish engineer and inventor.[br]He was the eldest son of Wolf Christopher Polhamma, a merchant. The father died in 1669 and the son was sent by his stepfather to an uncle in Stockholm who found him a place in the Deutsche Rechenschule. After the death of his uncle, he was forced to find employment, which he did with the Biorenklou family near Uppsala where he eventually became a kind of estate bailiff. It was during this period that he started to work with a lathe, a forge and at carpentry, displaying great technical ability. He realized that without further education he had little chance of making anything of his life, and accordingly, in 1687, he registered at the University of Uppsala where he studied astronomy and mathematics, remaining there for three years. He also repaired two astronomical pendulum clocks as well as the decrepit medieval clock in the cathedral. After a year's work he had this clock running properly: this was his breakthrough. He was summoned to Stockholm where the King awarded him a salary of 500 dalers a year as an encouragement to further efforts. Around this time, one of increasing mechanization and when mining was Sweden's principal industry, Pohlem made a model of a hoist frame for mines and the Mines Authority encouraged him to develop his ideas. In 1693 Polhem completed the Blankstot hoist at the Stora Kopparberg mine, which attracted great interest on the European continent.From 1694 to 1696 Polhem toured factories, mills and mines abroad in Germany, Holland, England and France, studying machinery of all kinds and meeting many foreign engineers. In 1698 he was appointed Director of Mining Engineering in Sweden, and in 1700 he became Master of Construction in the Falu Mine. He installed the Karl XII hoist there, powered by moving beams from a distant water-wheel. His plan of 1697 for all the machinery at the Falu mine to be driven by three large and remote water-wheels was never completed.In 1707 he was invited by the Elector of Hanover to visit the mines in the Harz district, where he successfully explained many of his ideas which were adopted by the local engineers. In 1700, in conjunction with Gabriel Stierncrona, he founded the Stiersunds Bruk at Husby in Southern Dalarna, a factory for the mass production of metal goods in iron, steel and bronze. Simple articles such as pans, trays, bowls, knives, scissors and mirrors were made there, together with the more sophisticated Polhem lock and the Stiersunds clock. Production was based on water power. Gear cutting for the clocks, shaping hammers for plates, file cutting and many other operations were all water powered, as was a roller mill for the sheet metal used in the factory. He also designed textile machinery such as stocking looms and spinning frames and machines for the manufacture of ribbons and other things.In many of his ideas Polhem was in advance of his time and Swedish country society was unable to absorb them. This was largely the reason for the Stiersund project being only a partial success. Polhem, too, was of a disputatious nature, self-opinionated almost to the point of conceit. He was a prolific writer, leaving over 20,000 pages of manuscript notes, drafts, essays on a wide range of subjects, which included building, brick-making, barrels, wheel-making, bell-casting, organ-building, methods of stopping a horse from bolting and a curious tap "to prevent serving maids from sneaking wine from the cask", the construction of ploughs and threshing machines. His major work, Kort Berattelse om de Fornamsta Mechaniska Inventioner (A Brief Account of the Most Famous Inventions), was printed in 1729 and is the main source of knowledge about his technological work. He is also known for his "mechanical alphabet", a collection of some eighty wooden models of mechanisms for educational purposes. It is in the National Museum of Science and Technology in Stockholm.[br]Bibliography1729, Kort Berattelse om de Fornamsta Mechaniska Inventioner (A Brief Account of the Most Famous Inventions).Further Reading1985, Christopher Polhem, 1661–1751, TheSwedish Daedalus' (catalogue of a travelling exhibition from the Swedish Institute in association with the National Museum of Science and Technology), Stockholm.IMcN -
31 expand
ɪksˈpænd гл.
1) а) растягивать(ся), расширять(ся) ;
увеличивать(ся) в объеме, в размерах The object of this gymnastic exercise is to expand the chest. ≈ Цель этого упражнения растягивать мышцы живота. The longer version only expands, and in no way contradicts, the shorter one. ≈ Более длинная версия лишь расширяет краткую, а не противоречит ей. When air is warmed it expands and becomes lighter. ≈ Когда воздух нагревается, он расширяется и становится легче. Our trade with China is steadily expanding. ≈ Наша торговля с Китаем все расширяется. Syn: enlarge, dilate, swell б) прям. перен. расправлять крылья в) бот. распускаться, расцветать;
раскидывать ветви Where oak expands her arms. ≈ Где дуб раскинул ветви. ∙ Syn: spread out, open out, unfold
2) а) развивать(ся) (into) The director plans to expand the firm into an international company. ≈ Директор планирует расширить фирму до транснациональной компании. Syn: develop б) раскрываться, делаться откровеннее, общительнее ∙ Syn: unfold
3) а) излагать дело в подробностях, раскрывать суть дела I'm quite satisfied with your explanation, so there's no need to expand on it. ≈ Я вполне удовлетворен вашим объяснением, дальнейшее можете опустить. б) мат. раскрывать скобки в формуле, уравнении и т.п. в) заменять аббревиатуры их расшифровками расширять, развивать, распространять - education *s the mind образование развивает ум /расширяет кругозор/ - to * cultural exchanges расширять /развивать/ культурный обмен - to * the volume of trade расширить объем торговли расширяться, развиваться, распространяться;
расти - milk production is *ing производство молока увеличивается /растет/ - cultural exchanges * развивается /увеличивается/ культурный обмен увеличивать (размер, объем) ;
расширять - to * a bridgehead( военное) расширять плацдарм - to * the chest (спортивное) вытягиваться, расширить грудную клетку увеличиваться (в размере, объеме) ;
раздаваться - metals * when they are heated металлы расширяются при нагревании развертывать;
распускать( паруса и т. п.) - the breeze *ed the flag ветер развернул флаг развертываться, растягиваться - the flag *ed in the breeze флаг развернулся на ветру - we saw Sicily *ing like a map below под нами, как на карте, распростерлась Сицилия расправлять( крылья) ;
раскидывать (ветви) раскрываться, распускаться - the tulips * in the sun тюльпаны раскрываются /расцветают/ на солнце - his face *ed in a smile его лицо расплылось в улыбке (into) развертывать (во что-л.) ;
доводить( до чего-л.) ;
увеличивать (до какого-л. размера) - to * a phrase into a sentence развернуть фразу в предложение - to * a short story into a novel переработать рассказ в роман - the pocket-size dictionary was *ed into a full-sized one карманный словарь был дополнен и превращен в полный расширяться, превращаться, переходить, перерастать( во что-л.) - the river *ed into a lake река стала озером, река превратилась в озеро излагать подробно;
распространяться (на какую-л. тему) - he did not * on his statement он ничего не прибавил к своему заявлению - I intend to * on this theme tomorrow завтра я намереваюсь более подробно остановиться на этой теме становиться более общительным, сердечным, откровенным (техническое) развертывать, развальцовывать (математика) разлагать (в ряд) expand излагать подробно;
распространяться ~ излагать подробно ~ развивать(ся) (into) ~ развивать ~ мат. раскрывать (формулу) ~ расправлять (крылья) ;
раскидывать (ветви) ~ распространять ~ бот. распускаться, расцветать ~ расширять(-ся) ;
увеличивать(ся) в объеме;
растягивать(ся) ~ вчт. расширять ~ расширять ~ становиться более общительным, откровенным ~ увеличивать -
32 function
ˈfʌnŋkʃən функция, назначение - the * of education is to develop the mind образование имеет своей целью развить умственные способности - glass has an important * in modern architecture стекло занимает важное место в современной архитектуре функция, деятельность;
отправление( организма) - regular *s of the body нормальные функции организма - *s of the nerves функционирование нервной системы обыкн pl должностные обязанности, функции;
круг обязанностей - to perform one's daily *s выполнять повседневные служебные обязанности - to exercise administrative *s исполнять административные обязанности торжественная церемония;
торжество - * to be held on... торжественное собрание состоится... - to attend a great state * присутствовать на большом торжестве (разговорное) прием, вечер - quite a small * вечеринка - to see smb. at a * встретить кого-л на приеме (математика) функция - * linear * линейная функция функционировать, действовать;
работать - the telephone was not *ing телефон не работал выполнять функции, исполнять обязанности - the new official started *ing новый чиновник приступил к своим обязанностям - when the mother was ill the eldest girl had to * as both cook and housemaid когда мать была больна, старшей девочке приходилось и готовить, и убирать дом - in earlier English the present tense often *ed as the future в древнеанглийском языке настоящее время часто заменяло будущее address ~ вчт. адресная функция administrative ~ управленческая функция approximation ~ аппроксимирующая функция arithmetic ~ арифметическая функция array handling ~ вчт. функция обработки массивов as a ~ в качестве функции average sample number ~ функция среднего числа наблюдений belief ~ функция доверия blending ~ стыковочная функция Boolean ~ мат. булева функция buffer ~ согласующая функция buffer ~ функция буферного запаса built-in ~ вчт. встроенная функция built-in ~ стандартная функция bus resolution ~ вчт. функция разрешения шины circuit ~ вчт. схемная функция constraint ~ функция ограничений consumption ~ функция потребления convex ~ выпуклая функция covariance ~ функция ковариации criterion ~ оценочная функция criterion ~ целевая функция cumulative distribution ~ стат. интегральная функция распределения damped ~ затухающая функция decision ~ решающая функция degate ~ блокирующая функция demand ~ функция спроса driving ~ задающая функция dual ~ двойственная функция empiric distribution ~ эмпирическая функция распределения empiric ~ эмпирическая функция empirical distribution ~ эмпирическая функция распределения error ~ функция ошибок evaluation ~ оценочная функция exponential ~ экспоненциальная функция finance ~ финансовая служба fitled ~ эмпирическая функция fitted ~ подобранная функция fitted ~ эмпирическая функция frequency ~ плотность вероятности function разг. вечер, прием (часто public или social function) ~ действовать ~ (обыкн. pl) должностные обязанности ~ исполнять назначение ~ назначение ~ отправление (организма) ~ торжество;
торжественное собрание ~ функционировать, действовать;
выполнять функции ~ функционировать ~ мат. функция ~ функция, назначение ~ функция goal ~ целевая функция hashing ~ функция расстановки ill-behaved ~ нерегулярная функция illegal ~ вчт. запрещенная функция impure ~ вчт. функция с побочным эффектом intrinsic ~ вчт. встроенная функция inverse ~ обратная функция issuing ~ эмиссионная функция key ~ вчт. ключевая функция library ~ вчт. библиотечная функция likelihood ~ функция правдоподобия line ~ функция линейного подразделения linear utility ~ линейная функция полезности main ~ главная функция mapping ~ вчт. отображающая функция membership ~ функция принадлежности merit ~ оценочная функция nonlinear ~ нелинейная функция nonsale ~ обязанности, не связанные со сбытом nospread ~ вчт. специальная форма objective ~ вчт. целевая функция optimal decision ~ оптимальная решающая функция optimized ~ вчт. оптимизированная функция plotted ~ график функции polymorphic ~ вчт. полиморфная функция predefined ~ вчт. стандартная функция preference ~ функция предпочтения primary ~ первичная функция primitive recursive ~ вчт. примитивная рекурсивная функция processing ~ вчт. вычислительная функция processor defined ~ вчт. встроенная машинно-зависимая функция production ~ производственная функция purchasing ~ закупочная деятельность pure ~ вчт. функция без побочного эффекта ramp ~ вчт. телообразная функция ranking ~ функция ранжирования recording ~ функция учета recursive ~ рекурсивная функция regression ~ функция регрессии sales ~ отдел сбыта sales ~ торговый отдел sales ~ функция сбыта secretarial ~ должностные обязанности секретаря secretarial ~ круг обязанностей секретаря service ~ вчт. функция обслуживания shifting ~ вчт. функция сдвига shuffle ~ вчт. функция переключения signum ~ вчт. знаковая функция single-valued ~ однозначная функция staff ~ функции центрального аппарата предприятия state ~ государственная функция state ~ вчт. функция состояния statement ~ вчт. оператор -функция statistical decision ~ статистическая решающая функция stochastic ~ стохастическая функция storage ~ вчт. функция запоминания storage ~ вчт. функция хранения stream ~ вчт. потоковая функция supervising ~ контрольная функция supervisory ~ наблюдательная функция supply ~ функция предложения support ~ вчт. функция поддержки table ~ табличная функция tabulated ~ табличная функция target ~ вчт. целевая функция threshold ~ пороговая функция utility ~ вчт. утилита weight ~ весовая функцияБольшой англо-русский и русско-английский словарь > function
-
33 management
ˈmænɪdʒmənt сущ.
1) управление;
заведование, руководство, менеджмент The zoo needed better management rather than more money. ≈ Зоопарку требуются не столько деньги сколько хорошее руководство. the management of the mining industry ≈ управление горной промышленностью having just completed a management studies course ≈ только что окончил курсы по менеджменту management of news
2) (the management) правление;
администрация, дирекция
3) а) умение владеть( инструментом, оружием и т. п.) б) умение справляться (с делами, ситуацией и т. п.) в) достижение цели с помощью хитрости и т. п.;
прием, уловка, хитрость We rely not upon management or trickery, but upon our own hearts and hands. (Jowett) ≈ Мы расчитываем не на хитрости и обман, а на наши собственные сердца и руки. Syn: trick
1., ruse
4) уст. осторожное, бережное, чуткое отношение (к людям) управление, заведование;
менеджмент - the * of state affairs управление государственными делами - effective * действенное руководство - * experts специалисты по делам управления;
администраторы высшего класса - middle * среднее звено руководства - top * высшее руководство - * by objectives( техническое) (программно-) целевое управление - * by exception( техническое) управление по отклонениям - * of labour (медицина) ведение родов - to develop appropriate * skills развивать необходимые административные навыки - the failure of the scheme was due to bad * провал этого плана явился следствием плохого руководства (the *) (собирательнле) правление;
дирекция, администрация - the * of the factory дирекция фабрики - labour and * failed to agree on wages рабочие и администрация не договорились о заработной плате умение владеть (инструментом) умение справляться (с работой) хитрость, уловка - it needed /took/ a good deal of * to persuade him потребовалось немало хитрости /уловок/, чтобы убедить его( устаревшее) осторожное, бережное, чуткое отношение (к людям) account ~ ведение счетов asset ~ управление активами asset-liability ~ регулирование актива и пассива bad ~ неквалифицированное управление bank ~ управление банком budget ~ контроль и регулирование бюджета budgetary ~ бюджетное регулирование business ~ руководство торгово-промышленной деятельностью business ~ управление торгово-промышленным предприятием capital ~ контроль и регулирование капитала case ~ управление делами cash ~ контроль и регулирование денежных операций cash ~ управление наличностью central ~ главная дирекция central ~ центральная администрация computer-assisted ~ автоматизированное управление configuration ~ вчт. управление конфигурацией credit line ~ регулирование кредитной линии daily ~ повседневное руководство data ~ вчт. управление данными database ~ вчт. управление базой данных debt ~ контроль и регулирование долговых отношений debt ~ управление долгом demand ~ контроль и регулирование спроса energy ~ управление энергетикой environmental ~ меры по охране окружающей среды environmental ~ меры по рациональному использованию окружающей среды factory ~ управление предприятием file ~ вчт. управление файлом financial ~ управление финансами financial ~ управление финансовой деятельностью fund ~ управление фондом government debt ~ государственное регулирование долговых отношений group ~ коллективное руководство household ~ ведение домашнего хозяйства import ~ регулирование импорта inept ~ неумелое управление information systems ~ управление информационными системами inventory ~ управление запасами inventory ~ управление материально-техническим снабжением investment ~ управление капиталовложениями investment ~ управление портфелем ценных бумаг ~ хитрость, уловка;
it took a good deal of management to make him do it потребовалось много уловок, чтобы заставить его сделать это job ~ организация труда join the ~ входить в руководство labour ~ организация труда landscape ~ управление ландшафтом liquidity ~ управление ликвидностью management администрация ~ дирекция ~ заведование ~ менеджмент ~ орган управления ~ организация производства ~ осторожное, бережное, чуткое отношение (к людям) ~ правление, дирекция, администрация ~ (the ~) правление;
дирекция, администрация ~ правление ~ руководство ~ умение владеть (инструментом) ;
умение справляться (с работой) ~ умение справляться (с работой) ~ умение справляться ~ умение справляться с работой ~ управление, заведование ~ управление;
заведование ~ управление ~ управленческий аппарат ~ хитрость, уловка;
it took a good deal of management to make him do it потребовалось много уловок, чтобы заставить его сделать это ~ хитрость, уловка ~ by interest rates управление путем контроля процентных ставок ~ by rules управление по установленным правилам ~ of agreement контроль выполнения соглашения ~ of assets управление активами ~ of capital управление капиталом ~ of finances управление финансовой деятельностью ~ of positions регулирование наличия ценных бумаг и других финансовых активов ~ of positions регулирование остатка средств на счете materiel ~ склад. управление материально-техническим обеспечением memory ~ вчт. управление памятью middle ~ среднее административное звено municipal ~ городская администрация overall ~ полное управление personnel ~ руководство кадрами personnel ~ трудовые отношения personnel ~ управление кадрами personnel: ~ management руководство кадрами;
personnel department отдел кадров или личного состава planned ~ плановое управление plant ~ заводоуправление poor ~ неудовлетворительное управление portfolio ~ контроль и регулирование портфеля активов portfolio ~ управление портфелем ценных бумаг price ~ контроль цен production ~ управление производством program ~ вчт. управление разработкой программ project ~ управление проектом property ~ управление недвижимым имуществом public ~ государственное управление quality ~ управление качеством queue ~ вчт. организация очереди records ~ делопроизводство records ~ оперативный учет responsible ~ ответственное руководство revenue yield ~ контроль выручки risk ~ управление при допущении риска risk ~ управление риском screen ~ вчт. управление экраном senior ~ высшая администрация корпорации senior ~ высшее исполнительное руководство software ~ вчт. управление разработкой программного обеспечения staff ~ функциональное руководство state ~ государственное управление station ~ вчт. диспетчер станции stock-exchange ~ управление фондовой биржей supply ~ управление поставками system ~ вчт. сопровождение системы task ~ вчт. управление задачами tax ~ налоговый контроль top ~ высшее руководство treasury ~ управление финансами unified ~ совместное управление urban ~ управление городом virtual storage ~ вчт. управление виртуальной памятью visible ~ видимое управление works ~ дирекция завода works ~ заводоуправление works ~ управление предприятиемБольшой англо-русский и русско-английский словарь > management
-
34 resource
rɪˈsɔ:s
1. сущ.
1) обыкн. мн.;
прям. и перен. запасы, ресурсы, средства;
природные богатства to develop, exploit, tap resources ≈ разрабатывать полезные ископаемые to husband one's resource ≈ умело управлять своими ресурсами to pool, share one's resource ≈ объединять ресурсы, совместно использовать ресурсы economic resources ≈ экономические ресурсы, объекты natural resources ≈ природные богатства untapped resources ≈ неиспользованные ресурсы
2) а) способ, средство б) возможность, шанс without /beyond/ resource ≈безнадежно, безвозвратно We have the resource to do the job. ≈ У нас есть возможность сделать работу. ∙ Syn: method, means, expedient, device, shift
3) способ, средство развлечения, отдыха He has a resource in the chase, an occupation, ever ready at hand. ≈ Его основное развлечение это охота, всегда доступное занятие.
4) изобретательность, находчивость;
умение выходить из трудного положения She showed great resource at problem solving. ≈ Она проявляет большую изобретательность в разрешении проблем. Syn: quick wit, inventiveness, resourcefulness
2. гл. снабжать (деньгами оборудованием и т.п.) The school must be resourced with musical instruments. ≈ Школу необходимо снабдить музыкальными инструментами. обыкн. pl (материальные) запасы, ресурсы, средства - natural *s естественные ресурсы /богатства/ - to be at the end of one's *s исчерпать все запасы - the *s in men and ammunition( военное) резерв личного состава и боеприпасов духовные ресурсы;
внутреннее содержание человека - to have inner *s to fall back on опираться на свои собственные духовные силы - he has no inner *s of character его натуре не хватает внутренней содержательности возможность, средство, способ - to be at the end of one's *s исчерпать все возможности - to draw upon one's own *s обойтись своими средствами - to make the most of one's *s до конца использовать свои возможности - his only remaining * was flight ему оставалось лишь одно - бежать - deception was his only * он рассчитывал лишь на обман времяпрепровождение, занятие (во время отдыха) ;
отдых, развлечение - reading had been her chief * она обычно отдыхала за книгой - leave him to his own *s не надо его занимать, пусть он сам себя развлекает /сам займется, чем хочет/ находчивость, изобретательность - full of * изобретательный - man of great * изобретательный человек шанс;
вероятность спасения, помощи и т. п. - without /beyond/ * безнадежно, безвозвратно (компьютерное) ресурс - * allocation распределение ресурсов;
предоставление ресурса, выделение ресурса - * sharing совместное использование ресурса resource возможность, способ, средство;
to be at the end of one's resources исчерпать все возможности computational ~ вчт. вычислительный ресурс critical ~ вчт. дефицитный ресурс dollar ~ вчт. денежные ресурсы ~ находчивость, изобретательность;
full of resource изобретательный production ~ производственные ресурсы ~ способ времяпрепровождения;
развлечение;
reading is a great resource in illness чтение - хорошее занятие во время болезни resource возможность, способ, средство;
to be at the end of one's resources исчерпать все возможности ~ возможность ~ изобретательность ~ находчивость, изобретательность;
full of resource изобретательный ~ находчивость ~ вчт. ресурс ~ (обыкн. pl) ресурсы, средства, запасы;
natural resources природные богатства ~ способ ~ способ времяпрепровождения;
развлечение;
reading is a great resource in illness чтение - хорошее занятие во время болезни ~ средство reusable ~ вчт. многократно используемый ресурс system ~ вчт. системный ресурсБольшой англо-русский и русско-английский словарь > resource
-
35 film
1) пленка
2) кинопленка
3) кинофильм
4) пленок
5) производить киносъемку
6) рыхлосвязанный
7) снимать
8) телевизионный
9) фильмовый
10) фотопленка
11) <engin.> перепонка
12) снимать на пленку
13) мембрана
14) пленочный
– acetate film
– adhesive film
– adsorbed film
– animation film
– antispray film
– backed film
– black-and-white film
– cellophane film
– coating film
– color film
– cut film
– deposit film
– develop film
– diazosensitized film
– dielectric film
– drawn film
– duplicating film
– duplitized film
– epitaxial film
– feature film
– ferromagnetic film
– film badge
– film boiling
– film camera
– film can
– film converter
– film cooling
– film criotron
– film cryotron
– film curls
– film deformation
– film deposition
– film drive
– film evaporator
– film flotation
– film fogging
– film gate
– film gauge
– film negative
– film packing
– film printer
– film reactor
– film recording
– film scanner
– film water
– fine-grain film
– high-speed film
– interfacial film
– large film
– lenticular film
– light-sensitive film
– loading of film
– magnetic film
– magnetostrictive film
– monomolecular film
– multimode film
– negative film
– nitrate film
– opaque film
– oxide film
– packaging film
– panoramic film
– photoresist film
– photosensitive film
– plastic film
– polymer film
– polymethyl-acrylate film
– positive film
– process film
– raw film
– record on film
– resistive film
– reversal film
– roll film
– safety film
– sandwich film
– screened film
– semiconductor film
– sensitive film
– short film
– slow film
– sound film
– stereophonic film
– stripping film
– substandard film
– surface film
– television film
– thermoplastic film
– thick film
– thread film
– training film
– transparency film
– transparent film
– unbacked film
– unexposed film
– wide-screen film
– X-ray film
film integrated circuit — пленочная микросхема, пленочная интегральная микросхема
polycrystalline film photocell — фотоэлемент на поликристаллической пленке
telerecording equipment for film — записывающая телевизионная аппаратура
-
36 potential
pə'tenʃəl
1. adjective(possible; that may develop into the thing mentioned: That hole in the road is a potential danger.) potencial
2. noun(the possibility, or likelihood, of successful development (in a particular way): The land has great farming potential; He shows potential as a teacher.) potencialpotential n potencialtr[pə'tenʃəl]1 potencial, posible1 potencial nombre masculino\SMALLIDIOMATIC EXPRESSION/SMALLto have potential ser prometedor,-rato realize one's full potential realizarse plenamentepotential [pə'tɛnʧəl] adj: potencial, posible1) : potencial mgrowth potential: potencial de crecimientoa child with potential: un niño que promete2) : potencial m (eléctrico)♦ potentially advadj.• potencial adj.n.• potencial s.m.
I pə'tentʃəl, pə'tenʃəlmass noun ( capacity) potencial m; ( possibilities) posibilidades fplshe showed great potential as a singer — prometía mucho or era muy prometedora como cantante
II
[pǝ'tenʃǝl]1.ADJ en potenciapotential earnings — ganancias fpl potenciales
2. N1) (=possibilities) potencial m ; (=ability) capacidad fto have the potential to do sth — [person] tener aptitudes or capacidad para hacer algo
the meeting has the potential to be a watershed — la reunión puede llegar a ser un acontecimiento decisivo
2) (Elec, Math, Phys) potencial m* * *
I [pə'tentʃəl, pə'tenʃəl]mass noun ( capacity) potencial m; ( possibilities) posibilidades fplshe showed great potential as a singer — prometía mucho or era muy prometedora como cantante
II
-
37 capacity
n1) потенциал; возможность; способность2) производительность; мощность; пропускная способность3) компетенция; (официальное) положение; должность4) емкость, вместимость5) юр. правоспособность•to develop one's combat capacity — развивать свою боевую мощь
to put into commission / operation new capacities — вводить в действие новые мощности
to raise competitive capacity of one's goods on / in foreign markets — повышать конкурентоспособность своих товаров на внешних рынках
to serve in one's capacity — действовать неофициально / от своего имени; выступать как частное лицо
to speak in one's official capacity — выступать в качестве официального представителя
- advisory capacityto strengthen the capacity of the UN — увеличивать потенциал / возможности ООН
- capacity to pay debt
- consultative capacity
- contractual capacity
- country's total generating capacity
- credit capacity
- defense capacity
- defensive capacity
- economic capacity
- independent nuclear capacity
- labor capacity
- market capacity
- military capacity
- nuclear weapon capacity
- production capacities
- vital capacity -
38 cooperation
n1) сотрудничество; взаимодействие; совместные действия или усилия2) кооперация; кооперирование•to achieve cooperation — осуществлять сотрудничество, сотрудничать
to encourage cooperation — поддерживать / поощрять сотрудничество
to establish cooperation — устанавливать / налаживать сотрудничество
to expand / to extend cooperation — расширять сотрудничество
to facilitate / to favor / to foster / to further cooperation — содействовать / способствовать сотрудничеству, развивать сотрудничество
to hinder cooperation — мешать / препятствовать сотрудничеству
to introduce new forms of cooperation — вводить / внедрять / устанавливать новые формы сотрудничества
to maintain cooperation — поддерживать / осуществлять сотрудничество
to obstruct cooperation — препятствовать сотрудничеству; стоять на пути сотрудничества
to promote cooperation — содействовать / способствовать сотрудничеству, развивать сотрудничество
- all-round cooperationto stimulate cooperation — поддерживать / поощрять / стимулировать сотрудничество
- beneficial cooperation
- bilateral cooperation
- broad cooperation
- broadening of cooperation
- business cooperation
- commercial cooperation
- common interest in the development of cooperation
- comprehensive cooperation
- cooperation across a huge project
- cooperation in agriculture
- cooperation in the field of smth
- cooperation of agriculture
- creative cooperation
- cross-border cooperation
- cultural cooperation
- customer cooperation
- economic cooperation
- educational cooperation
- environmental cooperation
- equitable cooperation
- expansion of cooperation
- extension of cooperation
- extensive cooperation
- foreign economic cooperation
- fruitable cooperation
- growing cooperation
- humanitarian cooperation
- in close cooperation with smb
- international cooperation
- interstate cooperation
- large-scale cooperation
- law enforcement cooperation
- long-term cooperation
- many-sided cooperation
- military cooperation
- multifaceted cooperation
- mutually advantageous cooperation
- nonproduction cooperation
- political cooperation
- production cooperation
- profitable cooperation
- regional cooperation
- resumption of cooperation
- SARC
- scientific cooperation
- South-Asian Regional Cooperation
- successful cooperation
- weakening of cooperation -
39 technology
nтехника; технические средства; технология; методикаto acquire technology — получать / приобретать технологию
to adopt technologies to the needs and conditions of a developing country — приспосабливать / применять технику / технологию к нуждам и условиям развивающейся страны
to develop technology — развивать / совершенствовать технику / технологию
to increase access of developing countries to technology — увеличивать доступ развивающихся стран к технологии производства / техническим средствам
to introduce new technology — внедрять новую технику / технологию
to select and design appropriate technologies — отбирать и разрабатывать соответствующие технические средства / производственные процессы
- adaptation of industrial technologyto transplant technologies — переносить технику / технологию / технологические процессы из одной страны в другую
- adequate technology
- advanced technology
- alternative technologies
- antipollution technology
- appropriate health technology
- appropriate technology
- capital-intensive technology
- capital-saving technology
- control technology
- embodied technology
- exchange of technology among countries - high-waste technology
- imported technology
- industrial technology
- intensive technology
- labor-intensive technology
- labor-saving technology
- level of technology
- low-energy-intensive technology
- low-waste technology
- management technology
- military technology
- non-polluting technology
- non-waste technology
- nuclear technology
- nuclear-weapons technology
- package technology
- packaged transfer of technology
- peaceful nuclear technology
- process technology
- requisite technology
- resource-saving technologies
- sensitive technology
- soft technology
- sophisticated technology
- space technology
- state-of-the-art technology
- suitable technology
- technology of production
- transfer of technology
- unpackaged technology
- up-to-date technology
- upward spiral of technology
- utilization of progressive technologies
- waste-free technology
- widely acknowledged technologies -
40 strategy
n мен. стратегія; політика; поведінка; спосіб дії; a стратегічнийплан і передбачений спосіб дії для виконання і забезпечення цілей компанії чи інших організацій═════════■═════════admissible strategy припустима стратегія; advertising strategy стратегія реклами • рекламна стратегія; available • доступна стратегія; bargaining strategy стратегія торгів • стратегія проведення торгів • стратегія переговорів; best strategy найкраща стратегія; bidding strategy стратегія торгів; brand extension strategy стратегія розширення марки; broad strategyies загальні стратегічні напрями; business strategy стратегія ділової активності; campaign strategy стратегія кампанії • стратегія рекламної кампанії; cautious strategy обережна стратегія; communication strategy стратегія комунікації; competitive strategy конкурентоспроможна стратегія • стратегія підходу до конкурентів; competitive marketing strategy маркетингова стратегія • підхід до конкурентів; composite strategy складова стратегія; copy strategy текстова стратегія • загальний підхід до тексту; core strategy основоположна стратегія • основна стратегія; corporate strategy стратегічний напрям фірми • загальнофірмова стратегія; corporate identity strategy стратегія фірмового стилю; creative strategy творча стратегія; development strategy стратегія розвитку; discount strategy стратегія зниження цін; distribution strategy стратегія розповсюдження товару; dominant strategy домінуюча стратегія; duplicated strategy дубльована стратегія; effective strategy ефективна стратегія; empirical strategy емпірична стратегія; entry strategy стратегія входу; equilibrium strategy стратегія рівноваги; essential strategy суттєва стратегія; expansion strategy стратегія розширення; experience-curve pricing strategy стратегія ціноутворення на основі кривої досвідченості; feedback strategy стратегія зі зворотним зв'язком; flexible strategy гнучка стратегія; follow-up strategy стратегія наступної роботи • додаткова стратегія • послідовна стратегія; forecasting strategy стратегія прогнозування; forward strategy наступальна стратегія; general strategy загальна стратегія; geographic pricing strategy стратегія ціноутворення за географічним принципом; good-value strategy стратегія якості; grim-trigger strategy стратегія «спускового гачка» • стратегія взаємодії компаній в умовах олігополії; growth strategy стратегія зростання; hard-line strategy жорстка стратегія; inadmissible strategy неприпустима стратегія; independent strategy незалежна стратегія; initial strategy початкова стратегія; interaction strategy стратегія взаємодії; interest-rate strategy стратегія відсоткової ставки; intervention strategy стратегія втручання; joint strategy спільна стратегія; linear strategy лінійна стратегія • математично обчислена стратегія; long-term strategy довгострокова стратегія • перспективна стратегія; management strategy стратегія менеджменту • стратегія управління виробництвом; market strategy ринкова стратегія; market coverage strategy стратегія охоплення ринку; market entry strategy стратегія входу на ринок; market expanding strategy стратегія розширення ринку; marketing strategy стратегія маркетингу • маркетингова стратегія; marketing mix strategy стратегія формування маркетингового комплексу; maximin strategy максимінна стратегія; media strategy стратегія вибору засобів реклами; message strategy стратегія звернення; milking strategy стратегія «видоювання» ринку; minimax strategy мінімаксна стратегія; mixed strategy змішана стратегія; monopoly strategy монополістична стратегія; multi-brand strategy багатомарочна стратегія; multistage strategy багатоступенева стратегія; nonoverlapping strategyies стратегії, які не перетинаються; optimal strategy оптимальна стратегія; ordering strategy порядок подання замовлень; overall sales strategy загальна стратегія збуту; penetration strategy стратегія проникнення; permissible strategy допустима стратегія; price strategy стратегія ціноутворення; pricing strategy стратегія ціноутворення; product strategy товарна політика • стратегія товару; production strategy стратегія виробництва; product-line strategy стратегія товарного асортименту; profit-taking strategy стратегія отримання максимально можливого прибутку; promotion strategy стратегія стимулювання • стратегія просування товару; public relations strategy стратегія громадських зв'язків; pull strategy; pure strategy чиста стратегія; push strategy; reach strategy стратегія охоплення; randomizing strategy випадкова стратегія • стратегія за правилами теорії вірогідності; replacement strategy стратегія поповнення запасів • порядок заміни устаткування; replenishment strategy стратегія поповнення запасів; rip-off strategy стратегія пограбування; sales strategy торговельна стратегія • збутова стратегія; sales-force strategy стратегія роботи торговельного апарату; scheduling strategy стратегія календарного планування • стратегія оперативного управління виробництвом; search strategy стратегія пошуку; segmentation strategy стратегія сегментації ринку • підхід до сегментації ринку; selling strategy торговельна стратегія; social change strategy стратегія суспільних змін; spending strategy стратегія витрат; stationary strategy статична стратегія; strict strategy чиста стратегія; team strategy колективний стратегічний підхід • гуртовий стратегічний підхід; technological strategy технологічна стратегія; thrifty strategy економічна стратегія; tit-for-tat strategy стратегія повторення ходів супротивника • стратегія «око за око»; upgrading strategy стратегія підняття рівня • стратегія підняття якісного рівня; winning strategy переможна стратегія═════════□═════════dominant strategy equilibrium рівновага домінуючої стратегії; strategy formulation формулювання стратегії; strategy of overcharging стратегія завищення цін; to carry out a strategy виконувати/виконати стратегію; to develop a strategy розробляти/розробити стратегію • розвивати/розвинути стратегію; to draw up strategy оформляти/оформити стратегію; to follow a strategy дотримуватися/дотриматися стратегії; to plan a strategy планувати/запланувати стратегію; to play a strategy застосовувати/застосувати стратегію; to pursue a strategy дотримуватися/дотриматися стратегії; to work out a strategy розробляти/розробити стратегію • розвивати/розвинути стратегію* * *стратегія ( відносно галузі або країни); основні напрями діяльності
См. также в других словарях:
Develop — Pays Royaume Uni Langue Anglais Périodicité Mensuel Genre Industrie du jeu vidéo … Wikipédia en Français
Production sharing agreement — Production sharing agreements (PSAs) are a common type of contract signed between a government and a resource extraction company (or group of companies) concerning how much of the resource (usually oil) extracted from the country each will… … Wikipedia
Develop (producer) — Develop is a hip hop producer well known for his work with The Diplomats. He also works very closely with Lil Wayne, and has done much work for artists such as Young Jeezy and Fabolous as well. Born in New Jersey, he currently resides in Miami… … Wikipedia
production sharing agreement — (PSA) USA An agreement between a government and a company in which the government awards to the company the right to extract and develop a natural resource (for example, mineral ore or oil). Under a PSA, the company bears the financial risk of… … Law dictionary
Production — (Roget s Thesaurus) < N PARAG:Production >N GRP: N 1 Sgm: N 1 1 =>{ant,162,158} production creation construction formation fabrication manufacture Sgm: N 1 building building architecture erection edification Sg … English dictionary for students
Production d'électricité nucléaire par pays — Demande de traduction Nuclear power by country → … Wikipédia en Français
Khrunichev State Research and Production Space Center — [This is the English language name given at http://www.khrunichev.ru/khrunichev eng/live/contact.asp.] ( ГКНПЦ им. М. В. Хруничева in Russian) is a Moscow based producer of space launch systems. It is named after Mikhail Khrunichev a soviet… … Wikipedia
Computer-aided production engineering — CAPE International Conference logo Computer aided production engineering (CAPE) is a relatively new and significant branch of engineering. Global manufacturing has changed the environment in which goods are produced. Meanwhile, the rapid… … Wikipedia
theatrical production — Introduction the planning, rehearsal, and presentation of a work. Such a work is presented to an audience at a particular time and place by live performers, who use either themselves or inanimate figures, such as puppets, as the medium of… … Universalium
Defense Production Act — The Defense Production Act (Pub.L. 81 774) is a United States law enacted on September 8, 1950, in response to the start of the Korean War. It was part of a broad civil defense and war mobilization effort in the context of the Cold War. Its… … Wikipedia
Sparkling wine production — All production methods for sparkling wines have one thing in common: they have the purpose of introducing enough carbon dioxide in the wine to make it effervescent … Wikipedia