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61 pan regeneration process
The English-Russian dictionary general scientific > pan regeneration process
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62 Solvay process
The English-Russian dictionary general scientific > Solvay process
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63 Markov process
марковский процессadditive functional of а Markov process аддитивный функционал от марковского процессаАнглийский-русский словарь по теории вероятностей, статистике и комбинаторике > Markov process
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64 аддитивный процесс
Большой англо-русский и русско-английский словарь > аддитивный процесс
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65 аддитивный способ
Большой англо-русский и русско-английский словарь > аддитивный способ
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66 аддитивный процесс
Англо-русский словарь технических терминов > аддитивный процесс
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67 полуаддитивный процесс
half-additive processБольшой англо-русский и русско-английский словарь > полуаддитивный процесс
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68 аддитивный способ
( цветной печати) additive processАнгло-русский словарь технических терминов > аддитивный способ
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69 function
1) функция, действие || функционировать; действовать- essential functions - routine function - safety-related functions2) функциональное назначение; роль- circuit function - intrinsic function - metering function - primary function - robot function - planning function - service function - support function4) функциональный узел ( машины)5) матем. функциональная зависимость, функция- absolutely additive function - absolutely bounded function - absolutely continuous function - absolutely integrable function - absolutely monotone function - absolutely summable function - absolutely symmetric function - almost complex function - almost continuous function - almost convex function - almost everywhere defined function - almost everywhere finite function - almost invariant function - almost periodic function - almost recursive function - almost separably-valued function - almost separating function - almost universal function - analytically independent function - analytically representable function - approximately differentiable function - asymptotically differentiable function - asymptotically finite function - asymptotically uniformly optimal function - bounded below function - cellwise continuous function - circumferentially mean p-valent function - comparison function - complementary error function - complete analytic function - completely additive function - completely computable function - completely monotone function - completely multiplicative function - completely productive function - completely subadditive function - completely symmetrical function - completely undefined function - complex hyperbolic function - conditional risk function - countably multiplicative function - countably valued function - covariant function - cumulative distribution function - cumulative frequency function - deficiency function - double limit function - doubly periodic function - doubly recursive function - effectively computable function - effectively constant function - effectively decidable function - effectively variable function - elementarily symmetric function - entire function of maximum type - entire function of mean type - entire function of potential type - entire function of zero type - entire rational function - essentially increasing function - essentially integrable function - essentially real function - essentially smooth function - everywhere differentiable function - everywhere smooth function - expansible function - explicitly definable function - exponentially convex function - exponentially decreasing function - exponentially increasing function - exponentially multiplicative function - exponentially vanishing function - finitely mean valent function - finitely measurable function - function of appropriate behavior - function of bounded characteristic - function of bounded type - function of bounded variation - function of complex variable - function of exponential type - function of finite genus - function of finite variation - function of fractional order - function of infinite type - function of integral order - function of maximal type - function of minimal type - function of mixed variables - function of normal type - function of number theory - function of one variable - function of rapid descent - function of rapid growth - function of real variable - general universal function - geometric carrier function - implicitly definable function - incomplete dibeta function - incomplete gamma function - incomplete tribeta function - incompletely defined function - inductively defined function - inductively integrable function - infinitely divisible function - infinitely many-valued function - integral logarithmic function - inverse trigonometric function - inverted beta function - iterative function - joint correlation function - joint density function - linearly separable function - locally bounded function - locally constant function - locally holomorphic function - locally homogeneous function - locally integrable function - locally negligible function - locally regular function - locally summable function - logarithmic generating function - logarithmic integral function - logarithmically infinite function - logarithmically plurisubharmonic function - logarithmically subharmonic function - lower semicontinuous function - monotone non-decreasing function - monotone non-increasing function - multiply periodic function - multiply recursive function - negative definite function - negative infinite function - nontangentially bounded function - normalized function - normed function - nowhere continuous function - nowhere differentiable function - nowhere monotonic function - n-times differentiable function - n-tuply periodic function - numeralwise expressible function - numeralwise representable function - numerical function - numerically valued function - oblate spheroidal function - operating characteristic function - optimal policy function - parametrically definable function - partially symmetric function - piecewise constant function - piecewise continuously differentiable function - piecewise linear function - piecewise monotonic function - piecewise polynomial function - piecewise quadratic function - piecewise regular function - piecewise smooth function - pointwise approximated function - positive homogeneous function - positive infinite function - positive monotone function - positive monotonic function - positive semidefinite function - potentially calculable function - potentially recursive function - power series function - probability generating function - quadratically summable function - rapidly damped function - rapidly decreasing function - rapidly oscillatory function - recursively continuous function - recursively convergent function - recursively defined function - recursively differentiable function - recursively divergent function - recursively extensible function - relative distribution function - relative frequency function - representing function - reproducing kernel function - residual function - residue function - scalarwise integrable function - scalarwise measurable function - sectionally smooth function - simply periodic function - singly recursive function - slowly increasing function - slowly oscillating function - slowly varying function - smoothly varying function - solid spherical harmonic function - solid zonal harmonic function - steadily increasing function - stopped random function - strictly convex function - strictly decreasing function - strictly increasing function - strictly integrable function - strictly monotone function - strongly differentiable function - strongly holomorphic function - strongly integrable function - strongly measurable function - strongly plurisubharmonic function - totally additive function - totally continuous function - totally measurable function - totally multiplicative function - totally positive function - triangular function - uniformly best decision function - uniformly bounded function - uniformly definable function - uniformly differentiable function - uniformly homotopic function - uniformly integrable function - uniformly limited function - uniformly measurable function - uniformly smooth function - unit step function - unitary divisor function - upper measurable function - upper semicontinuous function - weakly analytic function - weakly continuous function - weakly differentiable function - weakly holomorphic function - weakly measurable function - weakly singular function - weighted random functiondomain of a function — область определения функции, область изменения независимой переменной
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70 Joly, John
SUBJECT AREA: Photography, film and optics[br]b. 1857 Holywood, King's County (now County Down, Northwern Ireland), Irelandd. 8 December 1933 Dublin, Eire[br]Irish pioneer of additive screen-plate colour photography.[br]Professor of Physics at Trinity College, Dublin, Joly developed a concept first suggested by Ducos du Hauron, creating in 1893 a process in which fine transparent red, green and blue lines, less than 0.1 mm wide, were ruled on a glass plate. The coloured inks were aniline dyes mixed with gum. This screen plate was held in close contact with a photographic negative plate which was exposed through the screen in a camera. The processed negative was printed onto a positive plate, and a viewing screen, similar to that used for taking, was bound up with it in careful register, to reproduce the original colours. The process was patented in 1894, and marketed in 1895. It was the first commercially successful additive screen-plate process to appear. While the results could be quite acceptable, the inadequate colour sensitivity of the negative plates then available limited the usefulness of this process. Professor Joly's other achievements included geological research and the treatment of cancer by radium.[br]Further ReadingJ.S.Friedman, 1944, History of Colour Photography, Boston.B.Coe, 1978, Colour Photography: The First Hundred Years, London. G.Koshofer, 1981, Farbfotografie, Vol. I, Munich.BC -
71 function
nounфункция fautocorrelation function автокорреляционная/корреляционная функцияautocovariance function автоковариационная/ковариационная функцияcadlag function кадлаг функция (непрерывная справа и имеющая конечные пределы слева)estimable function функция, допускающая несмещенную оценкуF-adapted function /"-адаптированная (F-согласованная) функцияhomogeneous isotropic correlation function однородная изотропная корреляционная функцияhomogeneous transition function однородная/стационарная переходная функцияridge function гребневая/хребтовая функцияsample function выборочная функция, траектория, реализацияstochastically continuous transition function стохастически непрерывная переходная функцияU-estimable function функция, допускающая несмещенную оценкуU-estimable linear function линейная функция, допускающая несмещенную оценкуАнглийский-русский словарь по теории вероятностей, статистике и комбинаторике > function
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72 Ducos du Hauron, Arthur-Louis
SUBJECT AREA: Photography, film and optics[br]b. 1837 Langon, Bordeaux, Franced. 19 August 1920 Agen, France[br]French scientist and pioneer of colour photography.[br]The son of a tax collector, Ducos du Hauron began researches into colour photography soon after the publication of Clerk Maxwell's experiment in 1861. In a communication sent in 1862 for presentation at the Académie des Sciences, but which was never read, he outlined a number of methods for photography of colours. Subsequently, in his book Les Couleurs en photographie, published in 1869, he outlined most of the principles of additive and subtractive colour photography that were later actually used. He covered additive processes, developed from Clerk Maxwell's demonstrations, and subtractive processes which could yield prints. At the time, the photographic materials available prevented the processes from being employed effectively. The design of his Chromoscope, in which transparent reflectors could be used to superimpose three additive images, was sound, however, and formed the basis of a number of later devices. He also proposed an additive system based on the use of a screen of fine red, yellow and blue lines, through which the photograph was taken and viewed. The lines blended additively when seen from a certain distance. Many years later, in 1907, Ducos du Hauron was to use this principle in an early commercial screen-plate process, Omnicolore. With his brother Alcide, he published a further work in 1878, Photographie des Couleurs, which described some more-practical subtractive processes. A few prints made at this time still survive and they are remarkably good for the period. In a French patent of 1895 he described yet another method for colour photography. His "polyfolium chromodialytique" involved a multiple-layer package of separate red-, green-and blue-sensitive materials and filters, which with a single exposure would analyse the scene in terms of the three primary colours. The individual layers would be separated for subsequent processing and printing. In a refined form, this is the principle behind modern colour films. In 1891 he patented and demonstrated the anaglyph method of stereoscopy, using superimposed red and green left and right eye images viewed through green and red filters. Ducos du Hauron's remarkable achievement was to propose theories of virtually all the basic methods of colour photography at a time when photographic materials were not adequate for the purpose of proving them correct. For his work on colour photography he was awarded the Progress Medal of the Royal Photographic Society in 1900, but despite his major contributions to colour photography he remained in poverty for much of his later life.[br]Further ReadingB.Coe, 1978, Colour Photography: The First Hundred Years, London. J.S.Friedman, 1944, History of Colour Photography, Boston. E.J.Wall, 1925, The History of Three-Colour Photography, Boston. See also Cros, Charles.BCBiographical history of technology > Ducos du Hauron, Arthur-Louis
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73 plate
1. пластина; плита2. стереотип; гальваностереотип; стереотипировать; изготовлять гальваностереотип3. фотопластинка4. наносить гальваническое покрытие5. гравюра; эстамп; вкладная иллюстрация6. экслибрис7. удалять краску с пробельных элементов формы8. вымывать неэкспонированные участки фотоформыadhesive mounted plate — печатная форма, закреплённая приклеиванием
9. алюминиевая офсетная формная пластина10. алюминиевая офсетная печатная формаplate thickness — толщина пластины, толщина печатной формы
11. алюминиевая формная пластина12. алюминиевая печатная формаaqueous-developed plate — печатная форма, получаемая с использованием водного проявления
Ben Day plate — клише, в котором часть элементов изображения создана тангированием
13. изогнутая стереотипная печатная форма14. биметаллическая формная пластина15. биметаллическая печатная формаblank plate — пластина, подготовленная для гравирования
bridge plate — направляющий мостик, направляющая пластина
chalk plate — стальная пластина, покрытая мелом
16. фототипная печатная форма17. фототипная вкладная иллюстрация18. многокрасочная иллюстрация19. клише для многокрасочной печати; цветоделённая печатная формаcolor line plate — гальваностереотип, подлитый способом «колор лайн»
combination halftone-and-line plate — смешанная печатная форма, содержащая растровые и штриховые изображения
computer output printed paper plate — бумажная печатная форма с выходными данными, полученными из ЭВМ
conversion plate — форма глубокой печати, изготовленная с офсетной фотоформы
20. круглый стереотип21. изогнутая печатная формаdata plate — табличка основных параметров; фирменная табличка
deep-etch plate — офсетная печатная форма с углублёнными печатающими элементами, форма глубокого офсета
22. высекальный штамп23. штемпель, штемпельная пластина, штемпельная формаdiffusion transfer plate — форма, полученная способом диффузионного переноса изображения
direct image plate — форма с прямым изображением ; печатная форма, полученная прямым копированием
24. распашная иллюстрация; распашной вкладной лист25. форма для печатания распашной иллюстрацииduplicate plate — дубликат клише, форма-дубликат; вторичная печатная форма, стереотипная печатная форма, стереотип
26. форма, полученная гравированием27. стапельный стол самонаклада28. подающая планка; толкатель самонаклада29. плоская печатная форма30. слабая печатная формаplate copy — копия, полученная с формы
31. слабый диапозитив или негативflexo plate — флексографская печатная форма, форма флексографской печати
32. кассета фальцевальной машины33. сфальцованная иллюстрация34. неподвижный бортик, пластина для долевой загибки ткани35. рабочая пластина переднего упора36. передний упор37. полосная вкладная иллюстрация38. вкладной лист, имеющий формат страницыhalftone plate — растровая печатная форма; растровое клише
halftone color plate — растровое клише для многокрасочной печати; растровая цветоделённая печатная форма
hand-engraved plate — форма глубокой печати, полученная ручным способом
hard edges plate — растровое клише, дающее более тёмное изображение по краям
high speed projection plate — формная пластина высокой светочувствительности для проекционной съёмки
imaged plate — копия, экспонированная формная пластина
image receiving plate — пластина, воспринимающая изображение
ink plate — раскатная плита, красочная плита
laminated plate — ламинированная формная пластина; тонкая листовая форма
line plate — штриховая печатная форма; штриховое клише
39. форма плоской печати40. офсетная формная пластинаlithographic electrostatic printing plate — офсетная печатная форма, изготовленная электростатическим способом
41. магниевая формная пластина42. магниевая печатная формаmagnetic plate — печатная форма с металлической подложкой для крепления на магнитном формном цилиндре
43. эталонная печатная форма44. шрифтоноситель на пластинеminus plate — печатная форма, на которой печатающие элементы расположены ниже непечатающих
45. полиметаллическая формная пластина46. полиметаллическая офсетная форма47. выворотная форма48. формная пластина с негативным копировальным слоем49. печатная форма негативного копирования50. фотополимерная форма высокой печати типа «найлопринт»51. фотополимеризующаяся пластина типа «найлопринт»offset paper plate — бумажная офсетная форма, офсетная форма на гидрофильной бумаге
52. бумажная формная пластина53. бумажная печатная формаpattern plate — оригинальная форма, предназначенная для матрицирования
photodirect plate — бумажная формная пластина с ортохроматическим покрытием на основе галоидного серебра
54. фотополимерная пластина55. фотополимерная печатная форма56. печатная форма, полученная на пластмассовой пластине прямым способом, полимерная печатная формаswash plate — диск, насаженный на ось не под прямым углом
57. пластмассовый стереотипplus plate — печатная форма, на которой печатающие элементы возвышаются над непечатающими
58. диапозитив на фотопластинке59. формная пластина с позитивным копировальным слоемguide plate — направляющая пластина; кондуктор
60. печатная форма позитивного копированияpositive-acting plate — офсетная пластина, имеющая после копирования видимое прямое изображение
positive working printing plate — позитивная формная пластина, формная пластина позитивного копирования
powder etched plate — печатная форма, вытравленная с припудриванием
powderless etched plate — печатная форма, вытравленная без припудривания
pressing plate — прессующая губка, прессующая пластина
press-ready plate — форма, готовая к печати
61. формная пластина62. форма для многокрасочного печатания63. репродукционная фотопластинка64. перфорированная печатная форма; печатная форма с перфорированными краями65. форма с пробитыми приводочными отверстиями66. планка механизма бокового равнения67. металлическая пластина на переднем краю накладного столаregistered plate — форма, установленная в положение точной приводки
68. ребристый стереотип69. ребристая печатная формаscan plate — клише, изготовленное на фотоэлектрогравировальной машине
70. клише, имеющее растр на штрихах и заливках рисунка71. растровое клише72. очувствлённая формная пластина73. светочувствительная фотопластинкаshort-lived plate — печатная форма, имеющая малую тиражестойкость
stereotype plate — стереотип, стереотипная печатная форма, вторичная печатная форма
74. офсетная формная пластина субтрактивного типа75. форма позитивного копированияtension lock-up plate — печатная форма, закреплённая натягом
test printing plate — контрольная печатная форма, тест-форма, печатная форма для контрольных испытаний
tipped-in plate — приклеенная иллюстрация, вклейка
76. триметаллическая формная пластина77. триметаллическая печатная формаtub-grained plate — пластина, зернённая шариками
water-cooled plate — форма, охлаждаемая водой, форма с водяным охлаждением
water-developed plate — копия, проявляемая водой
web supporting plate — лентонаправляющая пластина; пластина, служащая опорой для ленты
78. офсетная пластина для изготовления формы способом натирания79. офсетная печатная форма, изготовленная способом натиранияplate supporting surface — поверхность, несущая печатную форму
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74 plate
1) пластина; плита2) формная пластина3) (печатная) форма4) стереотип; гальваностереотип || стереотипировать; изготовлять гальваностереотип5) фотопластинка6) наносить гальваническое [электролитическое] покрытие7) гравюра; эстамп; вкладная иллюстрация8) экслибрисАнгло-русский словарь по полиграфии и издательскому делу > plate
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75 Coolidge, William David
[br]b. 23 October 1873 Hudson, Massachusetts, USAd. 3 February 1975 New York, USA[br]American physicist and metallurgist who invented a method of producing ductile tungsten wire for electric lamps.[br]Coolidge obtained his BS from the Massachusetts Institute of Technology (MIT) in 1896, and his PhD (physics) from the University of Leipzig in 1899. He was appointed Assistant Professor of Physics at MIT in 1904, and in 1905 he joined the staff of the General Electric Company's research laboratory at Schenectady. In 1905 Schenectady was trying to make tungsten-filament lamps to counter the competition of the tantalum-filament lamps then being produced by their German rival Siemens. The first tungsten lamps made by Just and Hanaman in Vienna in 1904 had been too fragile for general use. Coolidge and his life-long collaborator, Colin G. Fink, succeeded in 1910 by hot-working directly dense sintered tungsten compacts into wire. This success was the result of a flash of insight by Coolidge, who first perceived that fully recrystallized tungsten wire was always brittle and that only partially work-hardened wire retained a measure of ductility. This grasped, a process was developed which induced ductility into the wire by hot-working at temperatures below those required for full recrystallization, so that an elongated fibrous grain structure was progressively developed. Sintered tungsten ingots were swaged to bar at temperatures around 1,500°C and at the end of the process ductile tungsten filament wire was drawn through diamond dies around 550°C. This process allowed General Electric to dominate the world lamp market. Tungsten lamps consumed only one-third the energy of carbon lamps, and for the first time the cost of electric lighting was reduced to that of gas. Between 1911 and 1914, manufacturing licences for the General Electric patents had been granted for most of the developed work. The validity of the General Electric monopoly was bitterly contested, though in all the litigation that followed, Coolidge's fibering principle was upheld. Commercial arrangements between General Electric and European producers such as Siemens led to the name "Osram" being commonly applied to any lamp with a drawn tungsten filament. In 1910 Coolidge patented the use of thoria as a particular additive that greatly improved the high-temperature strength of tungsten filaments. From this development sprang the technique of "dispersion strengthening", still being widely used in the development of high-temperature alloys in the 1990s. In 1913 Coolidge introduced the first controllable hot-cathode X-ray tube, which had a tungsten target and operated in vacuo rather than in a gaseous atmosphere. With this equipment, medical radiography could for the first time be safely practised on a routine basis. During the First World War, Coolidge developed portable X-ray units for use in field hospitals, and between the First and Second World Wars he introduced between 1 and 2 million X-ray machines for cancer treatment and for industrial radiography. He became Director of the Schenectady laboratory in 1932, and from 1940 until 1944 he was Vice-President and Director of Research. After retirement he was retained as an X-ray consultant, and in this capacity he attended the Bikini atom bomb trials in 1946. Throughout the Second World War he was a member of the National Defence Research Committee.[br]Bibliography1965, "The development of ductile tungsten", Sorby Centennial Symposium on the History of Metallurgy, AIME Metallurgy Society Conference, Vol. 27, ed. Cyril Stanley Smith, Gordon and Breach, pp. 443–9.Further ReadingD.J.Jones and A.Prince, 1985, "Tungsten and high density alloys", Journal of the Historical Metallurgy Society 19(1):72–84.ASDBiographical history of technology > Coolidge, William David
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76 Ives, Frederic Eugene
SUBJECT AREA: Photography, film and optics[br]b. 17 February 1856 Litchfield, Connecticut, USAd. 27 May 1937 Philadelphia, Pennsylvania, USA[br]American printer who pioneered the development of photomechanical and colour photographic processes.[br]Ives trained as a printer in Ithaca, New York, and became official photographer at Cornell University at the age of 18. His research into photomechanical processes led in 1886 to methods of making halftone reproduction of photographs using crossline screens. In 1881 he was the first to make a three-colour print from relief halftone blocks. He made significant contributions to the early development of colour photography, and from 1888 he published and marketed a number of systems for the production of additive colour photographs. He designed a beam-splitting camera in which a single lens exposed three negatives through red, green and blue filters. Black and white transparencies from these negatives were viewed in a device fitted with internal reflectors and filters, which combined the three colour separations into one full-colour image. This device was marketed in 1895 under the name Kromskop; sets of Kromograms were available commercially, and special cameras, or adaptors for conventional cameras, were available for photographers who wished to take their own colour pictures. A Lantern Kromskop was available for the projection of Kromskop pictures. Ives's system enjoyed a few years of commercial success before simpler methods of making colour photographs rendered it obsolete. Ives continued research into colour photography; his later achievements included the design, in 1915, of the Hicro process, in which a simple camera produced sets of separation negatives that could be printed as dyed transparencies in complementary colours and assembled in register on paper to produce colour prints. Later, in 1932, he introduced Polychrome, a simpler, two-colour process in which a bipack of two thin negative plates or films could be exposed in conventional cameras. Ives's interest extended into other fields, notably stereoscopy. He developed a successful parallax stereogram process in 1903, in which a three-dimensional image could be seen directly, without the use of viewing devices. In his lifetime he received many honours, and was a recipient of the Royal Photographic Society's Progress Medal in 1903 for his work in colour photography.[br]Further ReadingB.Coe, 1978, Colour Photography: The First Hundred Years, London J.S.Friedman, 1944, History of Colour Photography, Boston. G.Koshofer, 1981, Farbfotografie, Vol. I, Munich.E.J.Wall, 1925, The History of Three-Colour Photography, Boston.BC -
77 color
1. цвет, тон; оттенок2. краска; красящее вещество; пигмент; красить, окрашивать3. колер; окраска, расцветка4. пигментные красителиout of color — выцветший, выгоревший
to bring colors — переносить краску; накатывать краску
5. сравнивать цвета6. подбирать краски7. цвет фонаcolor killer — подавитель цвета; выключатель цветности
8. непрозрачная краска9. цвет краски в массеdistinctive colors — отличительные цвета; основные цвета
dry color — пигмент, сухая краска
color distance — несовпадение цвета, цветовое различие
10. серовато-коричневый цвет11. разноцветные бронзовые порошки12. грунтовая краска, грунт13. фоновая краскаto show in color — закрашивать, давать в красках
14. цвет краски15. чернильная краскаkey color — основная краска; краска основного цвета
luminous color — светящаяся краска, люминофор
matching color — цвет, используемый для подбора красок
16. масляная краска17. жировой красительphotoengraving color — краска, используемая в цинкографии
18. типографская краска19. краска для цветной печати газет20. цвет, полученный наложением красок, составной цвет21. основные цвета22. основные краскиhair color — цвет волос; краска для волос
23. сплошной тон, сплошная окраска, сплошная заливка24. плашкаsolid color printing — печатание со сплошных форм цветными красками, печатание цветных плашек
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78 plate
1) плита; пластин(к)а4) жесть6) гальваническое [электролитическое\] покрытие || наносить гальваническое [электролитическое\] покрытие; осаждать [выделять\] на электроде8) металлизировать; плакировать9) гидр. стенка10) гидр., мор. обшивка11) обшивать || геод. алидада теодолита12) тарелка ( ректификационной колонны)13) обкладка ( конденсатора)14) амер. анод15) электрон. плата16) электрон. фотошаблон17) решётка ( волчка или мясорубки)18) шайба20) полигр. формная пластина21) гравюра; эстамп23) бтх плоская чашка; планшет (для клонирования, титрования и т. п.)24) табличка25) номерной знак•-
absorber plate
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accumulator plate
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adapter plate
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additive plate
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adjustable angle cam plate
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advance plate
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aluminum plate
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anchor plate
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anodic plate
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anodized plate
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antifiring plate
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aperture plate
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apron plate
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aqueous-developed plate
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armor plate
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autochromatic plate
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back plate
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backed plate
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background plate
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backing brake plate
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backing plate
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baffle plate
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barrier plate
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base plate
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bath plate
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batten plate
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battery bottom plate
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battery plate
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bearing plate
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bed plate
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bench plate
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bimetal plate
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bit breaker plate
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black plate
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black-edged plate
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blade moldboard plate
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blade retaining plate
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blank plate
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body bolster bottom cover plate
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body bolster top cover plate
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body bottom plate
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body center plate
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body front plate
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bogie center plate
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bolster plate
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bottom plate
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bottom pouring plate
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boundary layer splitter plate
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brake plate
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brake pressure plate
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brake support plate
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brass plate
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breast plate
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bridge plate
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brush-holder plate
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brush plate
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bubble cap plate
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bubble plate
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bucket top spill plate
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buckle plate
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buckler plate
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buffer plate
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bulb plate
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bushing plate
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butt plate
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can body plate
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can ends plate
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cap plate
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capacitor plate
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catalyst flow plates
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cathodic plate
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caution plate
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center plate
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ceramized plate
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chair plate
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channeled plate
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checkered plate
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checker plate
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choke plate
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chord plate
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chromatographic plate
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chrome plate
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circuit plate
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clad plate
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clamp plate
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clamping plate
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claw arm plate
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claw plate
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clean-out plate
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clutch driven plate
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clutch plate
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clutch pressure plate
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coke-wharf plate
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cold plate
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cold-hold plate
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collection plate
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collector plate
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collodion plate
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color plate
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color process plate
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color-blind plate
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color-sensitive plate
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composite plate
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compound web plate
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connecting plate
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contact plate
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continuous plate
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convector plate
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cooling plate
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core drying plate
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core plate
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core support plate
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core-retainer plate
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corner plate
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corrosion-resistant plate
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corrugated plate
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cover plate
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crank plate
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crown plate
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curb plate
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curved plate
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cushion plate
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cutoff plate
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cutter plate
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cutting plate
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cylinder base plate
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dam plate
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damper plate
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data plate
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dead plate
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deflector plate
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descent plate
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dial plate
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diaphragm plate
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die plate
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diffuser plate
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direct image plate
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direct printing plate
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distributing plate
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distributor plate
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dividing plate
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double plate
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drawing plate
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draw plate
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dressing plate
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drive plate
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driving plate
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dry offset plate
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dry plate
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dual-coat plate
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dull plate
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duplicative cavity plate
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dust protection plate
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earth plate
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eaves plate
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edge plate
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edge-forming plate
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elastic plate
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elastically connected plates
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elastically restrained plate
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electric griddle plate
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electrode plate
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embossed plate
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embossing plate
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end brake plate
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end plate
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etched plate
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eutectic plate
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exhaustion plate
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extendible skid plate
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extruder breaker plate
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face plate
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feed plate
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female plate
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figured rolled plate
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filler plate
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filter plate
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fish plate
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five-play plate
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five plate
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fixed friction plate
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flange plate
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flanged plate
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flash plate
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flat cold-rolled black plate
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flat plate
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flexographic plate
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flitch plate
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flush throat plate
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foot plate
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force plate
-
fore plate
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forged rail car center plate
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formed plate
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foundation plate
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foundation settlement base plate
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fractionating plate
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frame plate
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frame splice plate
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Fresnel-zone plate
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friction plate
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frog plate
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fuel plate
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geared plate
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glass plate
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grained plate
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green plate
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grid plate
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ground plate
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grounding plate
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guard plate
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guide plate
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gusset plate
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half-tone plate
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Hall plate
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head plate
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hearth-cooling plate
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heavy plate
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heavy-duty flex plate
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heel plate
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helical plate
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hinge plate
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hitch plate
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hooked sole plate
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horizontal plate
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hot plate
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hot-rolled plate
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hub plate
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hull plate
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hydraulically operated dozer plate
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identification plate
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image plate
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inclined sole plate
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indexing plate
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ingot mold bottom plate
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ink plate
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inspection plate
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insulating plate
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jacking plate
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jaw plate
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jig plate
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joint plate
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junction plate
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keeper plate
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key plate
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lapping plate
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latch plate
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leaded beveled plate
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leveling plate
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light plate
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line plate
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liner plate
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lining plate
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lintel plate
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liquid photopolymer plate
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load distribution plate
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locking plate
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machine swivel plate
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magnetic holding plate
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male plate
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mallet plate
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manifold back plate
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margin plate
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master plate
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mending plate
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mica plate
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microchannel plate
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modulation plate
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mold bottom plate
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molding plate
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mottled plate
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mounting plate
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movable friction plate
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multimetal plate
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nave plate
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needle plate
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negative plate
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nickel-clad steel plate
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nog plate
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nozzle-retaining plate
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number plate
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off-gage plate
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offset plate
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on-gage plate
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orifice plate
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outside studding plate
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partition plate
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pasted plate
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patent plate
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pattern plate
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perfect plate
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perforated plate
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phosphor plate
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photographic plate
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photopolymer plate
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pickup plate
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piston base plate
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piston cam plate
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plate of shoe
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pole plate
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poling plate
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positive plate
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positive-electrode plate
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presensitized plate
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pressure plate
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prime plate
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printing plate
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process plate
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profiling plate
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pump thrust plate
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pusher plate
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race plate
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rafter plate
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raising plate
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rapping plate
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rating plate
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rectifying plate
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reinforcement plate
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relieving plate
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retainer plate
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retardation plate
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reverberation plate
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ribbed sole plate
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ring plate
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rolled plate
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rough plate
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rough-rolled plate
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rubber plate
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runner-shut plate
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saddle plate
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sandwich plate
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Schumann plate
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scrap plate
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screen plate
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scum plate
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scupper plate
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sealing plate
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seeding plate
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separable center plate
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separating plate
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shaft access hole sealing plate
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shear cutting plate
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shear plate
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sheared plate
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shoe plate
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side plate
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side-draw plate
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signal plate
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sill plate
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skid plate
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skimming plate
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skin plate
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slag plate
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sleeper plate
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smoky-edged plate
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sole plate
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solid photopolymer plate
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solid plate
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spacer plate
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space plate
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spindle plate
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splice plate
-
spring plate
-
spring support plate
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spring-loaded plate
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stack-cooling plate
-
starter plate
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stay plate
-
stealer plate
-
steam-distribution plate
-
steel backing plate
-
steel plate
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step plate
-
stepped plate
-
stiffening plate
-
stockline-wearing plate
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stonecast plate
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storage plate
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straight electrolytic plate
-
strike plate
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strike-on plate
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strip plate
-
stripping plate
-
substractive plate
-
support plate
-
surface plate
-
swash plate
-
switch plate
-
tank plate
-
tank shell plate
-
tapered plate
-
target backing plate
-
terminal plate
-
terne plate
-
theoretical plate
-
thermoplastic plate
-
thermosetting plate
-
thick-gage plate
-
thick plate
-
thin-gage plate
-
thin plate
-
throat plate
-
throttle plate
-
thrust plate
-
tie plate
-
tinned plate
-
top plate
-
tracing-up plate
-
track shoe plate
-
trimetal plate
-
truck spring plate
-
tube plate
-
twin fall plate
-
universal plate
-
upper flange plate
-
valve plate
-
vernier plate
-
wafer-developed plate
-
wall plate
-
warning plate
-
water-cooled plate
-
water-jacket plate
-
wear plate
-
web plate
-
weir plate
-
wheel parabolic plate
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wheel plate
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wipe-on plate
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wiring plate
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wobble plate
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working plate
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wraparound plate -
79 Godowsky, Leopold Jr
SUBJECT AREA: Photography, film and optics[br]b. 27 May 1900 Chicago, Illinois, USA d. 1983[br]American musician and photographic experimenter whose researches, with those of his colleague Mannes, led to the introduction of the first commercial tripack colour film, Kodachrome.[br]Both from distinguished musical families, Godowsky and Leopold Damrosch Mannes met at Riverdale School in New York in 1916, and shared an interest in photography. They began experiments in methods of additive colour photography, gaining a patent for a three-colour projector. Godowsky went to the University of California to study chemistry, physics and mathematics, while working as a professional violinist; Mannes, a pianist, went to Harvard to study music and physics. They kept in touch, and after graduating they joined up in New York, working as musicians and experimenting in colour photography in their spare time.Initially working in kitchens and bathrooms, they succeeded in creating a two-layer colour photographic plate, with emulsions separately sensitized to parts of the spectrum, and patented the process. This achievement was all the greater since they were unable to make the emulsions themselves and had to resort to buying commercial photographic plates so that they could scrape off the emulsions, remelt them and coat their experimental materials. In 1922 their work came to the attention of C.E.K. Mees, the leading photographic scientist and Director of the Eastman Kodak Research Laboratory in Rochester, New York. Mees arranged for plates to be coated to their specifications. With a grant from Kuhn, Loeb \& Co. they were able to rent laboratory space. Learning of Rudolf Fischer's early work on dye couplers, they worked to develop a new process incorporating them. Mees saw that their work, however promising, would not develop in an amateur laboratory, and in 1930 he invited them to join the Kodak Research Laboratory, where they arrived on 15 June 1931. Their new colleagues worked on ways of coating multi-layer film, while Mannes and Godowsky worked out a method of separately processing the individual layers in the exposed film. The result was Kodachrome film, the first of the modern integral tripack films, launched on 15 April 1935.They remained with Eastman Kodak until December 1939; their work contributed to the later appearance of Ektachrome colour-reversal film and the Kodacolor and Eastman Color negative-positive colour processes. Mannes became the Director of his father's Music Academy in New York, remaining as such until his death in 1964. Godowsky returned to Westport, Connecticut, and continued to study mathematics at Columbia University. He carried out photographic research un his private laboratory up until the time of his death in 1983.[br]Further ReadingC.E.K.Mees, 1961, From Dry Plates to Ektachrome Film, New York.BC -
80 Riley, James
SUBJECT AREA: Metallurgy[br]b. 1840 Halifax, Englandd. 15 July 1910 Harrogate, England[br]English steelmaker who promoted the manufacture of low-carbon bulk steel by the open-hearth process for tin plate and shipbuilding; pioneer of nickel steels.[br]After working as a millwright in Halifax, Riley found employment at the Ormesby Ironworks in Middlesbrough until, in 1869, he became manager of the Askam Ironworks in Cumberland. Three years later, in 1872, he was appointed Blast-furnace Manager at the pioneering Siemens Steel Company's works at Landore, near Swansea in South Wales. Using Spanish ore, he produced the manganese-rich iron (spiegeleisen) required as an additive to make satisfactory steel. Riley was promoted in 1874 to be General Manager at Landore, and he worked with William Siemens to develop the use of the latter's regenerative furnace for the production of open-hearth steel. He persuaded Welsh makers of tin plate to use sheets rolled from lowcarbon (mild) steel instead of from charcoal iron and, partly by publishing some test results, he was instrumental in influencing the Admiralty to build two naval vessels of mild steel, the Mercury and the Iris.In 1878 Riley moved north on his appointment as General Manager of the Steel Company of Scotland, a firm closely associated with Charles Tennant that was formed in 1872 to make steel by the Siemens process. Already by 1878, fourteen Siemens melting furnaces had been erected, and in that year 42,000 long tons of ingots were produced at the company's Hallside (Newton) Works, situated 8 km (5 miles) south-east of Glasgow. Under Riley's leadership, steelmaking in open-hearth furnaces was initiated at a second plant situated at Blochairn. Plates and sections for all aspects of shipbuilding, including boilers, formed the main products; the company also supplied the greater part of the steel for the Forth (Railway) Bridge. Riley was associated with technical modifications which improved the performance of steelmaking furnaces using Siemens's principles. He built a gasfired cupola for melting pig-iron, and constructed the first British "universal" plate mill using three-high rolls (Lauth mill).At the request of French interests, Riley investigated the properties of steels containing various proportions of nickel; the report that he read before the Iron and Steel Institute in 1889 successfully brought to the notice of potential users the greatly enhanced strength that nickel could impart and its ability to yield alloys possessing substantially lower corrodibility.The Steel Company of Scotland paid dividends in the years to 1890, but then came a lean period. In 1895, at the age of 54, Riley moved once more to another employer, becoming General Manager of the Glasgow Iron and Steel Company, which had just laid out a new steelmaking plant at Wishaw, 25 km (15 miles) south-east of Glasgow, where it already had blast furnaces. Still the technical innovator, in 1900 Riley presented an account of his experiences in introducing molten blast-furnace metal as feed for the open-hearth steel furnaces. In the early 1890s it was largely through Riley's efforts that a West of Scotland Board of Conciliation and Arbitration for the Manufactured Steel Trade came into being; he was its first Chairman and then its President.In 1899 James Riley resigned from his Scottish employment to move back to his native Yorkshire, where he became his own master by acquiring the small Richmond Ironworks situated at Stockton-on-Tees. Although Riley's 1900 account to the Iron and Steel Institute was the last of the many of which he was author, he continued to contribute to the discussion of papers written by others.[br]Principal Honours and DistinctionsPresident, West of Scotland Iron and Steel Institute 1893–5. Vice-President, Iron and Steel Institute, 1893–1910. Iron and Steel Institute (London) Bessemer Gold Medal 1887.Bibliography1876, "On steel for shipbuilding as supplied to the Royal Navy", Transactions of the Institute of Naval Architects 17:135–55.1884, "On recent improvements in the method of manufacture of open-hearth steel", Journal of the Iron and Steel Institute 2:43–52 plus plates 27–31.1887, "Some investigations as to the effects of different methods of treatment of mild steel in the manufacture of plates", Journal of the Iron and Steel Institute 1:121–30 (plus sheets II and III and plates XI and XII).27 February 1888, "Improvements in basichearth steel making furnaces", British patent no. 2,896.27 February 1888, "Improvements in regenerative furnaces for steel-making and analogous operations", British patent no. 2,899.1889, "Alloys of nickel and steel", Journal of the Iron and Steel Institute 1:45–55.Further ReadingA.Slaven, 1986, "James Riley", in Dictionary of Scottish Business Biography 1860–1960, Volume 1: The Staple Industries (ed. A.Slaven and S. Checkland), Aberdeen: Aberdeen University Press, 136–8."Men you know", The Bailie (Glasgow) 23 January 1884, series no. 588 (a brief biography, with portrait).J.C.Carr and W.Taplin, 1962, History of the British Steel Industry, Harvard University Press (contains an excellent summary of salient events).JKA
См. также в других словарях:
additive process — adityvusis vyksmas statusas T sritis radioelektronika atitikmenys: angl. additive process vok. Additivvorgang, m rus. аддитивный процесс, m pranc. processus additif, m … Radioelektronikos terminų žodynas
additive process — a process of color photography in which the colors are formed by the combination of red, green, and blue violet. Cf. subtractive process. [1930 35] * * * … Universalium
additive process — a process of color photography in which the colors are formed by the combination of red, green, and blue violet. Cf. subtractive process. [1930 35] … Useful english dictionary
Additive process — Аддитивный способ (образования цвета) … Краткий толковый словарь по полиграфии
Markov additive process — In applied probability, a Markov additive process (MAP) {(X(t),J(t)) : t ≥ 0} is a bivariate Markov process whose transition probability measure is translation invariant in the additive component X(t). That is to say, the… … Wikipedia
additive — additively, adv. /ad i tiv/, n. 1. something that is added, as one substance to another, to alter or improve the general quality or to counteract undesirable properties: an additive that thins paint. 2. Nutrition. a. Also called food additive. a… … Universalium
additive color — Photog. red, green, or blue violet, as used in the additive process of color photography. Also called additive primary. [1905 10] * * * … Universalium
additive — n. & adj. n. a thing added, esp. a substance added to another so as to give it specific qualities (food additive). adj. 1 characterized by addition (additive process). 2 to be added. Etymology: LL additivus (as ADD) … Useful english dictionary
additive color — Photog. red, green, or blue violet, as used in the additive process of color photography. Also called additive primary. [1905 10] … Useful english dictionary
additive — I. adjective Date: 1699 1. of, relating to, or characterized by addition < an additive process > 2. produced by addition 3. characterized by, being, or producing effects (as drug responses or gene products) that when the causative factors act… … New Collegiate Dictionary
additive — ad•di•tive [[t]ˈæd ɪ tɪv[/t]] n. 1) something that is added, as one substance to another, to alter or improve the quality or to counteract undesirable properties 2) nut a) a substance added directly to food during processing, as for preservation … From formal English to slang