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121 wkręt samogwintujący
• self-piercing screw• self-synchronous repeater• sheet-metal screw• tapping screw• thread-forming screwSłownik polsko-angielski dla inżynierów > wkręt samogwintujący
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122 пресс для листовой штамповки
Russian-English dictionary of construction > пресс для листовой штамповки
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123 secuestrante
m.1 sequestrant, food additive whose role is to improve the quality and stability of the food products.2 sequestrant, chemical substance that promotes sequestration by forming chelate compounds with metal ions in food additives, chemical that promotes sequestration. -
124 оборудование
с. equipmentпротивообледенительное оборудование — de-icing equipment; anti-icing equipment
Синонимический ряд:1. оснастка (сущ.) оснастка2. снабжение (сущ.) оснащение; снабжение -
125 Benton, Linn Boyd
SUBJECT AREA: Paper and printing[br]b. 13 May 1844 Little Falls, New York, USAd. 15 July 1932 Plainfield, New Jersey, USA[br]American typefounder, cutter and designer, inventor of the automatic punch-cutting machine.[br]Benton spent his childhood in Milwaukee and La Crosse, where he early showed a talent for mechanical invention. His father was a lawyer with an interest in newspapers and who acquired the Milwaukee Daily News. Benton became familiar with typesetting equipment in his father's newspaper office. He learned the printer's trade at another newspaper office, at La Crosse, and later worked as bookkeeper at a type foundry in Milwaukee. When that failed in 1873, Benton acquired the plant, and when he was joined by R.V.Waldo the firm became Benton, Waldo \& Co. Benton began learning and improving type-cutting practice. He first devised unit-width or "self-spacing" type which became popular with compositors, saving, it was reckoned, 20 per cent of their time. Meanwhile, Benton worked on a punch-cutting machine to speed up the process of cutting letters in the steel punches from which matrices or moulds were formed to enable type to be cast from molten metal. His first mechanical punch-cutter worked successfully in 1884. The third machine, patented in 1885, was the model that revolutionized the typefounding operation. So far, punch-cutting had been done by hand, a rare and expensive skill that was insufficient to meet the demands of the new typesetting machines, the monotype of Lanston and the linotype of Merganthaler. These were threatened with failure until Benton saved the day with his automatic punch-cutter. Mechanizing punch-cutting and the forming of matrices made possible the typesetting revolution brought about by mono-and linotype.In 1892 Benton's firm merged with others to form the American Type Founders Company. Benton's equipment was moved to New York and he with it, to become a board member and Chief Technical Advisor. In 1894 he became Manager of the company's new plant for type manufacture in Jersey City. Benton steadily improved both machinery and processes, for which he was granted twenty patents. With his son Morris Fuller, he was also notable and prolific in the field of type design. Benton remained in active association with his company until just two weeks before his death.[br]Further ReadingObituary, 1932, Inland Printer (August): 53–4.P.Cost, 1985, "The contributions of Lyn [sic] Boyd Benton and Morris Fuller Benton to the technology of typesetting and the art of typeface design", unpublished MSc thesis, Rochester Institute of Technology (the most thorough treatment).H.L.Bullen, 1922, Inland Printer (October) (describes Benton's life and work).LRD -
126 Pilkington, Sir Lionel Alexander Bethune (Alastair)
SUBJECT AREA: Chemical technology[br]b. 7 January 1920 Calcutta, India[br]English inventor of the float-glass process.[br]Pilkington was educated at Sherborne School and Trinity College, Cambridge, where he graduated in mechanical science. He spent one year at Cambridge followed by war service, which lasted until 1945. He returned to complete his degree and then joined Pilkington, the well-known glass manufacturer at St Helens' Lancashire, in 1947. Sir Alastair is not, however, related to the Pilkington family of glassmakers.The forming of perfectly flat glass that retained its fire finish had eluded glassmakers for centuries. Until the 1950s the only way of making really flat glass was to form plate glass by continuous casting between steel rollers. This destroyed the fire finish, which had to be restored by expensive grinding and polishing. The process entailed the loss of 20 per cent of good glass. The idea of floating glass on molten metal occurred to Sir Alastair in October 1952, and thereafter he remained in charge of development until commercial success had been achieved. The idea of floating molten glass on molten tin had been patented in the United States as early as 1902, but had never been pursued. The Pilkington process in essence was to float a ribbon of molten glass on a bath of molten tin in an inert atmosphere of nitrogen, to prevent oxidation of the tin. It was patented in Britain in 1957 and in the USA two years later. The first production glass issued from the plant in May 1957, although the first good glass did not appear until July 1958. The process was publicly announced the following year and was quickly taken up by the industry. It is now the universal method for manufacturing high quality flat glass.Having seen through the greatest single advance in glassmaking and one of the most important technological developments this century, Sir Alastair became Chairman of Pilkingtons until 1980 and President thereafter.[br]Principal Honours and DistinctionsKnighted 1970. FRS 1969. Honorary Fellow of Trinity College, Cambridge, 1991.Bibliography1969, "Float glass process—the review lecture", Royal Society (13 February). 1975, "Floating windows", Proceedings of the Royal Institution, Vol. 48.1976, "Float glass—evolution and revolution over 60 years", Glass Technology, Vol. 17, no. 5.1963, "The development of float glass", Glass Industry, (February).Further ReadingJ.Jewkes et al., 1969, The Sources of Invention, 2nd ed., London: Macmillan.LRDBiographical history of technology > Pilkington, Sir Lionel Alexander Bethune (Alastair)
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127 Sutton, Thomas
SUBJECT AREA: Photography, film and optics[br]b. 1819 Englandd. 1875 Jersey, Channel Islands[br]English photographer and writer on photography.[br]In 1841, while studying at Cambridge, Sutton became interested in photography and tried out the current processes, daguerreotype, calotype and cyanotype among them. He subsequently settled in Jersey, where he continued his photographic studies. In 1855 he opened a photographic printing works in Jersey, in partnership with L.-D. Blanquart- Evrard, exploiting the latter's process for producing developed positive prints. He started and edited one of the first photographic periodicals, Photographic Notes, in 1856; until its cessation in 1867, his journal presented a fresher view of the world of photography than that given by its London-based rivals. He also drew up the first dictionary of photography in 1858.In 1859 Sutton designed and patented a wideangle lens in which the space between two meniscus lenses, forming parts of a sphere and sealed in a metal rim, was filled with water; the lens so formed could cover an angle of up to 120 degrees at an aperture of f12. Sutton's design was inspired by observing the images produced by the water-filled sphere of a "snowstorm" souvenir brought home from Paris! Sutton commissioned the London camera-maker Frederick Cox to make the Panoramic camera, demonstrating the first model in January 1860; it took panoramic pictures on curved glass plates 152×381 mm in size. Cox later advertised other models in a total of four sizes. In January 1861 Sutton handed over manufacture to Andrew Ross's son Thomas Ross, who produced much-improved lenses and also cameras in three sizes. Sutton then developed the first single-lens reflex camera design, patenting it on 20 August 1961: a pivoted mirror, placed at 45 degrees inside the camera, reflected the image from the lens onto a ground glass-screen set in the top of the camera for framing and focusing. When ready, the mirror was swung up out of the way to allow light to reach the plate at the back of the camera. The design was manufactured for a few years by Thomas Ross and J.H. Dallmeyer.In 1861 James Clerk Maxwell asked Sutton to prepare a series of photographs for use in his lecture "On the theory of three primary colours", to be presented at the Royal Institution in London on 17 May 1861. Maxwell required three photographs to be taken through red, green and blue filters, which were to be printed as lantern slides and projected in superimposition through three projectors. If his theory was correct, a colour reproduction of the original subject would be produced. Sutton used liquid filters: ammoniacal copper sulphate for blue, copper chloride for the green and iron sulphocyanide for the red. A fourth exposure was made through lemon-yellow glass, but was not used in the final demonstration. A tartan ribbon in a bow was used as the subject; the wet-collodion process in current use required six seconds for the blue exposure, about twice what would have been needed without the filter. After twelve minutes no trace of image was produced through the green filter, which had to be diluted to a pale green: a twelve-minute exposure then produced a serviceable negative. Eight minutes was enough to record an image through the red filter, although since the process was sensitive only to blue light, nothing at all should have been recorded. In 1961, R.M.Evans of the Kodak Research Laboratory showed that the red liquid transmitted ultraviolet radiation, and by an extraordinary coincidence many natural red dye-stuffs reflect ultraviolet. Thus the red separation was made on the basis of non-visible radiation rather than red, but the net result was correct and the projected images did give an identifiable reproduction of the original. Sutton's photographs enabled Maxwell to establish the validity of his theory and to provide the basis upon which all subsequent methods of colour photography have been founded.JW / BC -
128 Wood, Henry Alexander Wise
SUBJECT AREA: Paper and printing[br]b. 1 March 1866 New York, USAd. 9 April 1939 USA[br]American manufacturer and inventor of printing machinery, including a stereotype casting machine.[br]The son of a Congressman and mayor of New York, Wood was educated at Media Academy in Pennsylvania, specializing in scientific subjects. The death of his father in 1881 prevented his going on to college and he went to work at the Campbell Printing and Manufacturing Company, of which he became President in 1896. In the meantime, he had married the daughter of J.L.Brower, the previous head of the company. Later business consolidations brought into being the Wood Newspaper Machine Corporation.Wood was responsible for a series of inventions that brought great benefit to the newspaperprinting processes. Most notable was the Autoplate, patented first in 1900 and finally in 1903. This enabled a whole page of newspaper type to be cast in metal at once, saving much time and effort in the forming of stereotypes; this invention earned him the Elliott Cresson gold medal of the Franklin Institute in 1909. Other inventions were the Autoreel, a high-speed press-feeder device, and the Autopaster, which automatically replaced a spent paper roll with a new one in a newspaper press, without the need to stop the press. Wood's improved presses and inventions increased the speed of newspaper production from 24,000 to 60,000 copies per hour, printed and folded.He was also much interested in aviation and was an early member of the Aero Club of America, becoming its Vice-President for six years. He helped to found the magazine Flying and was its Editor from 1911 to 1919. He had predicted the part played by aircraft and submarines during the Second World War and was invited to join a panel of consulting inventors and engineers to assist the development of the US Navy. He was soon at odds with the authorities, however, and he resigned in 1915. After the war, he spent time in vigorous campaigning against immigration, America's entry into the League of Nations and on many other issues, in all of which he was highly controversial. Nevertheless, he retained his interest in the newspaper-machinery business, remaining President of his company until 1935 and Chairman of the Board thereafter. In 1934 he became Chairman of the NRA Code Authority of the newspaper-machine industry.[br]Further ReadingObituary, 1939, New York Times (10 April). Obituary, 1939, New York Herald Tribune (10 April).LRDBiographical history of technology > Wood, Henry Alexander Wise
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