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101 Whitney, Amos
[br]b. 8 October 1832 Biddeford, Maine, USAd. 5 August 1920 Poland Springs, Maine, USA[br]American mechanical engineer and machine-tool manufacturer.[br]Amos Whitney was a member of the same distinguished family as Eli Whitney. His father was a locksmith and machinist and he was apprenticed at the age of 14 to the Essex Machine Company of Lawrence, Massachusetts. In 1850 both he and his father were working at the Colt Armory in Hartford, Connecticut, where he first met his future partner, F.A. Pratt. They both subsequently moved to the Phoenix Iron Works, also at Hartford, and in 1860 they started in a small way doing machine work on their own account. In 1862 they took a third partner, Monroe Stannard, and enlarged their workshop. The business continued to expand, but Pratt and Whitney remained at the Phoenix Iron Works until 1864 and in the following year they built their first new factory. The Pratt \& Whitney Company was incorporated in 1869 with a capital of $350,000, Amos Whitney being appointed General Superintendent. The firm specialized in making machine tools and tools particularly for the armament industry. Pratt \& Whitney was one of the leading firms developing the system of interchangeable manufacture which led to the need to establish national standards of measurement. The Rogers-Bond Comparator, developed with the backing of Pratt \& Whitney, played an important part in the establishment of these standards, which formed the basis of the gauges of many various types made by the firm.Amos Whitney was made Vice-President of Pratt \& Whitney Company in 1893 and was President from 1898 until 1901, when the company was acquired by the Niles- Bement-Pond Company: he then remained as one of the directors. He was elected a Member of the American Society of Mechanical Engineers in 1913.[br]Further ReadingJ.W.Roe, 1916, English and American Tool Builders, New Haven; reprinted 1926, New York, and 1987, Bradley, Ill. (describes the origin and development of the Pratt \& Whitney Company).RTS -
102 Zonca, Vittorio
[br]b. c. 1568 Italyd. 1603 Italy[br]Italian architect who wrote a book on machines.[br]All that is known of Zonca is included on the frontispiece of the book that is his only claim to fame. He is there described as architect to the "Magnificent Community of Padua". He compiled a book on machines entitled Novo teatro de machine ed edificii (New Display of Machines and Edifices), illustrated with numerous fine engravings. It was printed in Padua in 1607, four years after his death, by Francesco Bertelli, who said of the book that it "came into my hands", as though he knew nothing of the author.During the sixteenth and early seventeenth centuries, a number of illustrated books on technical subjects appeared, compiled by knowledgeable and educated authors. These books greatly helped the spread of information about the technical arts throughout Europe. There were several books on mechanical devices, notably those by Ramelli, Besson and Zonca. In some ways, Zonca's is the most interesting, for it seems closest to the mechanical practice of the time. Several of the machines he describes are referred to as being in use in Padua or Venice and he suggests ways of improving them. The range of machines is wider than in other similar works and includes pumps, cranes, powder mills, printing and bookbinding presses and textile machines. Perhaps the most interesting of these is the water-driven silk-threading machine, since some of its components resemble those in use in the twentieth century. Spinning mills were widely used in the silk industry in sixteenth-century Italy, and Zonca offers a full description of one. He also shows the first example of an oblique treadwheel, driven by oxen for the grinding of grain. Even so, despite all the practical detail, the book ends, like others of its kind, with fantasy, in a description of a perpetual-motion machine.[br]Further ReadingA.G.Keller, 1964, A Theatre of Machines, London: Chapman \& Hall (provides brief details and illustrations from the books by Ramelli, Besson and Zonca).LRD -
103 Zuse, Konrad
SUBJECT AREA: Electronics and information technology[br]b. 22 June 1910 Berlin, Germany[br]German civil engineer who developed a series of computers before, during and after the Second World War.[br]Zuse grew up in Braunsberg, then in East Prussia, and attended the Technische Hochschule at Berlin-Charlottenburg to study civil engineering. In 1934 he became interested in calculatingmachines and the pursuit of a career in aeronautical engineering. Two years later, having taken a post as a statistician, in his spare time he built a mechanical computer, which he called Z1; for this he used two-state mechanical switches and punched-tape for the program input. This was followed by the design for Z2, which used electromechanical relays.Called to military service in 1939, he was soon sent to the Henschel aircraft factory, where he completed Z2. Between 1939 and 1941 the German Aeronautical Research Institute supported his development of Z3, which used 2,600 relays and a keyboard input. Taken into immediate use by the aircraft industry, both it and its predecessors were destroyed in air raids. Z4, completed towards the end of the war and using mechanical memory, survived, and with improvements was used in Switzerland until 1960. Other achievements by Zuse included a machine to perform logical calculations (LI) and his Plankalkul, one of the first computer languages. In 1950, with two friends, he formed the Zuse KG company near Bad Hersfeld, Essen, and his first Z5 relay computer was sold to Leitz in 1952. A series of machines followed, a milestone in 1958 being the first transistorized machine, Z22, of which over 200 were made. Finally, in 1969, the company was absorbed by Siemens AG and Zuse returned to scientific research.[br]Principal Honours and DistinctionsHonorary Doctorate Berlin Technical University 1960. Honorary Professor Göttingen University 1960.Bibliography11 April 1936, German patent no. Z23 1391X/42M. 16 June 1941, German patent no. Z391.1 August 1949, German patent no. 50,746.1993, The Computer: My Life, Berlin: SpringerVerlag (autobiography).Further ReadingP.E.Ceruzzi, 1981, "The early computers of Konrad Zuse 1935–45", Annals of the History of Computing 3:241.M.R.Williams, 1985, A History of Computing Technology, London: Prentice-Hall.See also: Stibitz, George R.KF -
104 химическая промышленность
химическая промышленность
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[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
chemical industry
Industry related with the production of chemical compounds. The chemical processing industry has a variety of special pollution problems due to the vast number of products manufactured. The treatment processes combine processing, concentration, separation, extraction, by-product recovery, destruction, and reduction in concentration. The wastes may originate from solvent extraction, acid and caustic wastes, overflows, spills, mechanical loss, etc. (Source: PZ)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Русско-немецкий словарь нормативно-технической терминологии > химическая промышленность
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105 industrie chimique
химическая промышленность
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[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
chemical industry
Industry related with the production of chemical compounds. The chemical processing industry has a variety of special pollution problems due to the vast number of products manufactured. The treatment processes combine processing, concentration, separation, extraction, by-product recovery, destruction, and reduction in concentration. The wastes may originate from solvent extraction, acid and caustic wastes, overflows, spills, mechanical loss, etc. (Source: PZ)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Франко-русский словарь нормативно-технической терминологии > industrie chimique
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106 chemische Industrie
химическая промышленность
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[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
chemical industry
Industry related with the production of chemical compounds. The chemical processing industry has a variety of special pollution problems due to the vast number of products manufactured. The treatment processes combine processing, concentration, separation, extraction, by-product recovery, destruction, and reduction in concentration. The wastes may originate from solvent extraction, acid and caustic wastes, overflows, spills, mechanical loss, etc. (Source: PZ)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Немецко-русский словарь нормативно-технической терминологии > chemische Industrie
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107 угольная промышленность
угольная промышленность
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[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
coal industry
Industry related with the technical and mechanical activity of removing coal from the earth and preparing it for market. (Source: MGH)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
Русско-английский словарь нормативно-технической терминологии > угольная промышленность
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108 химическая промышленность
химическая промышленность
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[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
chemical industry
Industry related with the production of chemical compounds. The chemical processing industry has a variety of special pollution problems due to the vast number of products manufactured. The treatment processes combine processing, concentration, separation, extraction, by-product recovery, destruction, and reduction in concentration. The wastes may originate from solvent extraction, acid and caustic wastes, overflows, spills, mechanical loss, etc. (Source: PZ)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
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Русско-французский словарь нормативно-технической терминологии > химическая промышленность
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109 processing
ˈprəusesɪŋ сущ.
1) обработка America sent cotton to England for processing. ≈ Америка посылает хлопок в Англию для обработки. processing industry ≈ обрабатывающая промышленность food processing industry ≈ пищевая промышленность
2) обработка данных automatic data processing ≈ автоматическая обработка данных Syn: data processing обработка - * industries обрабатывающая промышленность - * tax (американизм) налог на (сельскохозяйственные) товары, подвергнутые обработке - demand * (компьютерное) обработка (данных) по мере поступления переработка (особенно первичная переработка сырья) - food * industry пищевая промышленность стерилизация (при консервировании) технология - * equipment технологическое оборудование (экономика) (компьютерное) обработка (собранных) данных (экономика) (компьютерное) обработка (документации) (кинематографический) лабораторная обработка кинопленки - reversal * процесс обработки с обращением (американизм) оформление( визы, документов) (американизм) рассмотрение( заявления, кандидатуры) (биохимия) процессинг (соединение генов в молекулу РНК) administrative data ~ обработка данных для административного управления background ~ вчт. выполнение работ с низким приоритетом background ~ вчт. фоновая обработка batch ~ вчт. групповая обработка batch ~ вчт. пакетная обработка batch ~ вчт. пакетная обработка данных business data ~ обработка коммерческой информации business ~ обработка деловой информации cheque ~ обработка чеков communications ~ вчт. обработка данных поступающих по линии связи concurrent ~ вчт. параллельное выполнение continuous ~ вчт. непрерывная обработка conversational ~ вчт. диалоговая обработка cooperative ~ вчт. коллективная обработка данных data ~ обработка данных data ~ вчт. обработка данных demand ~ вчт. обработка по мере поступления distributed ~ вчт. распределенная обработка electronic data ~ вчт. электронная обработка данных file ~ вчт. обработка файлов foreground ~ вчт. выполнение работ с высоким приоритетом further ~ последующая обработка image ~ вчт. обработка изображений information ~ обработка данных information ~ вчт. обработка информации information ~ обработка информации integrated data ~ вчт. комплексная обработка данных interactive data ~ вчт. интерактивная обработка данных interactive ~ вчт. диалоговая обработка knowledge ~ вчт. обработка знаний list ~ вчт. обработка списков machine ~ машинная обработка material ~ обработка материалов mechanical ~ механическая обработка multiple ~ вчт. мульти- программирование natural language ~ вчт. обработка естественного языка off-line ~ вчт. автономная обработка on-line ~ вчт. неавтономная обработка on-line ~ вчт. оперативная обработка order ~ обработка заказа parallel ~ вчт. параллельная обработка picture ~ вчт. обработка рисунков priority ~ вчт. обработкая данных в соответствии с приоритетом priority ~ вчт. приоритетная обработка processing pres. p. от process ~ вчт. обрабатывающий ~ обработка;
automatic data processing автоматическая обработка данных ~ вчт. обработка ~ обработка данных ~ оформление документов ~ переработка ~ переработка продуктов ~ технологический процесс ~ технология ~ of cases рассмотрение обстоятельств дела ~ of complaint рассмотрение жалобы ~ of loan оформление ссуды real time ~ вчт. обработка в реальном времени real-time data ~ вчт. обработка данных в реальном масштабе времени real-time data ~ вчт. обработка данных в темпе их поступления real-time ~ вчт. обработка данных в реальном масштабе времени real-time ~ вчт. обработка данных в темпе их поступления remote ~ вчт. телеобработка serial ~ вчт. последовательная обработка signal ~ вчт. обработка сигналов signal ~ вчт. прием сигнала substantive ~ материальное оформление symbolic ~ вчт. обработка символьной информации text ~ вчт. обработка текста time-bound ~ вчт. срочная обработка word ~ вчт. обработка текстов word ~ вчт. подготовка текстов word ~ вчт. пословная обработкаБольшой англо-русский и русско-английский словарь > processing
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110 MAP
1) Общая лексика: белки, а (группа белков, обеспечивающих поступательное движение за счёт толкательного усилия (динеин, кинезин, синколин), а также связывание и стабильность комплексов микротрубочек (белки -МАР, МАР2), - например, в составе веретена деления)2) Медицина: microtubules associated proteins, mean airway pressure (среднее давление в дыхательных путях), среднее артериальное давление, (method of activated particles) МАЧ (метод активированных частиц), mitral annuloplasty, malignant atrophic papulosis3) Военный термин: Master Attack Plan, Materiel Acquisition Process, Ministry of Aircraft Production, management analysis program, management assessment program, manpower allocation procedure, mechanical ambush patrol, medical aid post, military aid program, military aptitude predictor, military audit project, military automatic pistol, missile and package tester, modular avionics packaging, multiple aim point, munitions acquisition plan, mutual aid program, mutual assistance pact, mutual assistance plan, mutual assistance program, Ministry of Aviation Industry (USSR)4) Техника: Military Assistance Program, maintenance action plan, maintenance assessment package, maximum posteriori, memory allocation and protection, memory allocation and protection unit, message administration procedures, methodology assessment program, mitigation action plan, multiassociative processor, multiple-access processing, упаковывание в модифицированной газовой среде (modified atmosphere packaging)5) Сельское хозяйство: Monoammonium Phosphate, mean aortic pressure6) Химия: моноаммонийфосфат9) Страхование: market assistance plan10) Автомобильный термин: manifold absolute pressure - датчик давления во впускном коллекторе, manifold absolute pressure sensor, maniford absolute pressure (Krokodil), manifold absolute pressure (Krokodil)11) Оптика: measurement assurance program12) Телекоммуникации: Maintenance Administration Panel, Management Application Protocol, Manufacturing Automation Protocol (GM)13) Сокращение: MILSTAR Advanced Processor (USA), Membership Action Plan (NATO), Military Aid Program (USA), Military Assistance Program (USA), Ministry of Aviation Technology (Russia), Missed Approach Point, Mission Area Plan, Modular Acoustic Processor, Multiple Aim Point (USAF), Mutual Assistance Programme, Macroassembly Program, NATO Membership Action Plan, Linker Map (File Name Extension), MSN, Accessories, & PSP (Performance Service Plans) (Best Buy), Machinist Apprentice Program, Macro Arithmetic Processor, Macro Assembly Program, Macroeconomic Analysis and Policy, Madagascar Action Plan, Magnesium Ammonium Phosphate, Magnetic-Acoustic-Pressure, Magnetically Accelerated Projectile (Star Wars), Main Audio Program, Mainframe Acquisition Project, Maintenance Activation Plan, Maintenance Activity Pirmasens, Maintenance Analysis Procedures, Maintenance and Administrative Position (Nortel), Major Accounts Processing, Major Sync Point (ITU-T), Making Action Plans, Management Achievement Plan, Management Action Plan, Management Assistance Program, Management Process, Maneuverable Atmosphere Probe(s), Manifold Absolute Pressure, Manpower Analysis Paper, Manufacturing Application Protocol, Manufacturing Assembly Procedure, Manufacturing Automated Protocol, Manufacturing Automation Profile, Mapei - Quick Step (Tour de France cycling sponsor), Marathon Ashland Petroleum LLC, Marine Advisory Program, Marine Animal Productions, Maritime Airborne Patrol, Market Access Program, Market Analysis Portfolio, Market Analysis and Planning (Sprint - ISMF), Market Area Planning, Marketing Association of Pakistan, Markovian Arrival Process (concept in probability theory), Mass Air Pressure (sensor), Master Action Plan, Master Amino Acid Pattern, Master of Applied Politics, Materiel Acquisition Plan, Maximum A Posteriori Probability, Maximum A Posteriori estimate, Mazda Advancement Plan, Mean Airway Pressure, Mean Annual Precipitation, Measure of Academic Progress, Measurement Adoption Process, Media Accelerated Processor, Media Access Procedure, Media Access Project, Media Awareness Project, Medical Advantage Plan (AARP), Medical Aid for Palestinians, Medical Assessment Process, Medical Assistance Plan, Medical Assistance Program, Medical Assistance Program International, Medicare Advocacy Project, Medication Access Program (Georgia), Melanesian Alliance Party (Papua New Guinea), Membership Action Plan (NATO), Membrane Associated Protein, Memory Address Print, Memory Algorithm Processor, Memory Alliance Program, Memory Allocation Map, Merchant Account Provider, Merit Award Program (education), Mesh Access Point, Message Access Protocol, Message Application Part (Sprint), Message Application Programming, Messaging Application Protocol, Meteorology and Atmospheric Physics, Metropolitan Area Program, Mian Azmat Professionals (cricket), Michigan Adventure Park (Muskegon, Michigan), Michigan Advocacy Project, Michigan Airglow Payload, Microprocessor Applications Project, Microtubule-Associated Protein, Microwave Anisotropy Probe (NASA), Microwave Assisted Process (for detection of pollutants), Midrange Alliance Program, Military Advisory Panel, Military Aeronautical Pentathlon, Military Assistance Program (US), Milstar Advanced Processor, Miniature Array Package, Minimum Acceptable Performance (Hekimian), Minimum Advertised Price, Minimum-Advertised Pricing, Mining Automation Program (MMS Canada), Ministry for Antimonopoly Policy (Russian Federation), Minnesota AIDS Project, Mission Area Plan/Planning, Mission Assurance Plan, Mission Automation Plan, Missouri Assessment Program, Mitigation Action Plans, Mitogen-Activated Protein, Mitsubishi Assistance Package, Mixed Activation Products, Mobile Access Platform, Mobile Access Protocol, Mobile Agp Packet, Mobile Anchor Point, Mobile Antenna Platform, Mobile Application Part (GSM), Mobile Assistance Patrol, Mobility Anchor Point, Modern Aids to Planning, Modernization of Administrative Processes, Modified American Plan (hospitality industry), Modified Atmosphere Packaging, Modular Architecture Platform, Modular Avionics Package, Moisture, Ash and Protein, Mold Array Package, Monitored Asynchronous Protocol, Monitoring Attitudes of the Public (ACLI Survey), Monitoring the AIDS Pandemic (Pande'mie Mondiale de VIH/SIDA), Monoammonium Phosphate (agrochemistry), Monophasic Action Potential (cardiac electrophysiology), Montana Advocacy Program, Montreal Action Plan, Morbidity and Performance Assessment, Morning After Pill, Mortgagor Assistance Program (mortgage industry CRM), Mortier Adhe'sif Pla^tre (French: Skim Coat Plaster; a construction material), Morton Area Players, Motivation for Academic Performance (Duke University), Motorist Assistance Patrol, Motorist Assurance Program, Mouse Antibody Production, Mouse Atlas Project, Move Assistance Program, Movement And Position (tracking system), Multi Access Portal, Multi Agent Planning, Multi-Agency Profiler, Multi-Agency Project, Multi-Country AIDS Program (World Bank), Multicultural Achievers Program, Multidimensional Assignment Problem, Multimodal Application Platform (LiteScape), Multiple Access Protocol, Multiple Aim Point System, Multiplexed Access Point, Multiplexer Access Point, Multiservice Access Platform, Municipal Airport, Mural Arts Program (Philadelphia, Pennsylvania public art project), Mutualized Access Point, Mutually Agreed Positions, Mycobacterium Avium-subspecies Paratuberculosis, missed approach procedure (US DoD)14) Вычислительная техника: Manageability, Availability, Performance, Microprocessor Analysis Package, Mobile Application Part, Manufacturing Automation Protocol (General Motors), Maintenance Analysis Procedure (IBM), Mobile Application Part (MSC, GSM, Mobile-Systems), модульный акустический процессор15) Нефть: maximum allowable pressure16) Генетика: microtubule-associated proteins17) Космонавтика: Mediterranean Action Plan, Middle Atmosphere Program (SCOSTEP)18) Воздухоплавание: Minimum Audible Pressure19) Упаковка: (modified atmosphere packaging) упаковывание в модифицированной газовой среде (МГС)20) Глоссарий компании Сахалин Энерджи: Master Approvals Plan22) Сетевые технологии: мэйнфрейм, протокол автоматизации производства, центральная ЭВМ23) Полимеры: manifold air pressure24) Авиационная медицина: mean arterial pressure25) Расширение файла: Manufacturing Automation Protocol, Message Acceptance Pulse, Map file (usually created by compilers)26) Логистика: ПДЧ (Membership Action Plan - NATO)27) Карачаганак: Management Action Plan (План управленческих мероприятий) (отчёт по аудиту, мероприятия которые нужно провести по его результатам) -
111 MIC
1) Общая лексика: ОПК (military-industrial complex), минимальная доза ингибитора (minimum inhibiting concentration), minimum igniting current2) Компьютерная техника: medium-interface connector3) Медицина: minimal inhibitory concentration, morbus ischaemicus cordis4) Спорт: Make It Count5) Военный термин: MLRS International Corporation, Management Indicator Code, Maritime Intelligence Center, Meteorological Information Committee, Military Intelligence Committee, Multinational Intelligence Cell, maintenance information center, maintenance information chart, management information center, message identification code, mid-intensity conflict, military industrial complex, monitoring, identification, and correlation6) Техника: marine information center, methyl isothiocyanate, microbiologically induced corrosion, microbiologically influenced corrosion, microscopic, microwave interference coordination, mutual interference chart7) Химия: метилизоцианат ( Methyl isocyanate)8) Юридический термин: Minor In Consumption9) Автомобильный термин: mechanical instrument cluster10) Телекоммуникации: Medium Interface Connector (FDDI)11) Сокращение: MLRS International Corp. (UK), Media (medium) interface connector, Microwave Integrated Circuit, Military-Industrial Complex (Russia), microphone, Message Integrity Check, Microbiologically Influenced Corrosion, Middle-In-Chain, Minimum Inhibitory Concentration12) Физика: Measuring Ionization Chamber13) Электроника: Monolithic Integrated Circuits14) Вычислительная техника: Management Information Centers, Management Integration Consortium, Memory In Cassette, Message Integrity Check / Code, microelectronic integrated circuit, monolithic integrated circuit, multimedia interactive control, Media Interface Connector (FDDI, PMD), Multiple Interface Connection (Kyocera), Memory in Cassette (Seagate, EEPROM, Streamer, AIT)15) Микробиология: minimum inhibitory concentration (минимальная подавляющая концентрация)16) Транспорт: Maximum Import Capacity17) Фирменный знак: Music Industry Coalition18) СМИ: Movie Item Collection19) Деловая лексика: Made In Canada, Market Intelligence Center, Meetings Industry Council20) Сетевые технологии: medium interface connector, Консорциум по интеграции средств сетевого управления, Консорциум по объединению систем управления, интерфейсный соединитель со средой, соединитель для подключения терминала к интерфейсу шины21) Безопасность: message integrity code22) Расширение файла: Master Interrupt Control, Microsoft Image Composer Data23) Электротехника: marketing interface to customer24) ООН: Man In Charge25) Должность: Midget In Charge, Music Industry Consultant -
112 Map
1) Общая лексика: белки, а (группа белков, обеспечивающих поступательное движение за счёт толкательного усилия (динеин, кинезин, синколин), а также связывание и стабильность комплексов микротрубочек (белки -МАР, МАР2), - например, в составе веретена деления)2) Медицина: microtubules associated proteins, mean airway pressure (среднее давление в дыхательных путях), среднее артериальное давление, (method of activated particles) МАЧ (метод активированных частиц), mitral annuloplasty, malignant atrophic papulosis3) Военный термин: Master Attack Plan, Materiel Acquisition Process, Ministry of Aircraft Production, management analysis program, management assessment program, manpower allocation procedure, mechanical ambush patrol, medical aid post, military aid program, military aptitude predictor, military audit project, military automatic pistol, missile and package tester, modular avionics packaging, multiple aim point, munitions acquisition plan, mutual aid program, mutual assistance pact, mutual assistance plan, mutual assistance program, Ministry of Aviation Industry (USSR)4) Техника: Military Assistance Program, maintenance action plan, maintenance assessment package, maximum posteriori, memory allocation and protection, memory allocation and protection unit, message administration procedures, methodology assessment program, mitigation action plan, multiassociative processor, multiple-access processing, упаковывание в модифицированной газовой среде (modified atmosphere packaging)5) Сельское хозяйство: Monoammonium Phosphate, mean aortic pressure6) Химия: моноаммонийфосфат9) Страхование: market assistance plan10) Автомобильный термин: manifold absolute pressure - датчик давления во впускном коллекторе, manifold absolute pressure sensor, maniford absolute pressure (Krokodil), manifold absolute pressure (Krokodil)11) Оптика: measurement assurance program12) Телекоммуникации: Maintenance Administration Panel, Management Application Protocol, Manufacturing Automation Protocol (GM)13) Сокращение: MILSTAR Advanced Processor (USA), Membership Action Plan (NATO), Military Aid Program (USA), Military Assistance Program (USA), Ministry of Aviation Technology (Russia), Missed Approach Point, Mission Area Plan, Modular Acoustic Processor, Multiple Aim Point (USAF), Mutual Assistance Programme, Macroassembly Program, NATO Membership Action Plan, Linker Map (File Name Extension), MSN, Accessories, & PSP (Performance Service Plans) (Best Buy), Machinist Apprentice Program, Macro Arithmetic Processor, Macro Assembly Program, Macroeconomic Analysis and Policy, Madagascar Action Plan, Magnesium Ammonium Phosphate, Magnetic-Acoustic-Pressure, Magnetically Accelerated Projectile (Star Wars), Main Audio Program, Mainframe Acquisition Project, Maintenance Activation Plan, Maintenance Activity Pirmasens, Maintenance Analysis Procedures, Maintenance and Administrative Position (Nortel), Major Accounts Processing, Major Sync Point (ITU-T), Making Action Plans, Management Achievement Plan, Management Action Plan, Management Assistance Program, Management Process, Maneuverable Atmosphere Probe(s), Manifold Absolute Pressure, Manpower Analysis Paper, Manufacturing Application Protocol, Manufacturing Assembly Procedure, Manufacturing Automated Protocol, Manufacturing Automation Profile, Mapei - Quick Step (Tour de France cycling sponsor), Marathon Ashland Petroleum LLC, Marine Advisory Program, Marine Animal Productions, Maritime Airborne Patrol, Market Access Program, Market Analysis Portfolio, Market Analysis and Planning (Sprint - ISMF), Market Area Planning, Marketing Association of Pakistan, Markovian Arrival Process (concept in probability theory), Mass Air Pressure (sensor), Master Action Plan, Master Amino Acid Pattern, Master of Applied Politics, Materiel Acquisition Plan, Maximum A Posteriori Probability, Maximum A Posteriori estimate, Mazda Advancement Plan, Mean Airway Pressure, Mean Annual Precipitation, Measure of Academic Progress, Measurement Adoption Process, Media Accelerated Processor, Media Access Procedure, Media Access Project, Media Awareness Project, Medical Advantage Plan (AARP), Medical Aid for Palestinians, Medical Assessment Process, Medical Assistance Plan, Medical Assistance Program, Medical Assistance Program International, Medicare Advocacy Project, Medication Access Program (Georgia), Melanesian Alliance Party (Papua New Guinea), Membership Action Plan (NATO), Membrane Associated Protein, Memory Address Print, Memory Algorithm Processor, Memory Alliance Program, Memory Allocation Map, Merchant Account Provider, Merit Award Program (education), Mesh Access Point, Message Access Protocol, Message Application Part (Sprint), Message Application Programming, Messaging Application Protocol, Meteorology and Atmospheric Physics, Metropolitan Area Program, Mian Azmat Professionals (cricket), Michigan Adventure Park (Muskegon, Michigan), Michigan Advocacy Project, Michigan Airglow Payload, Microprocessor Applications Project, Microtubule-Associated Protein, Microwave Anisotropy Probe (NASA), Microwave Assisted Process (for detection of pollutants), Midrange Alliance Program, Military Advisory Panel, Military Aeronautical Pentathlon, Military Assistance Program (US), Milstar Advanced Processor, Miniature Array Package, Minimum Acceptable Performance (Hekimian), Minimum Advertised Price, Minimum-Advertised Pricing, Mining Automation Program (MMS Canada), Ministry for Antimonopoly Policy (Russian Federation), Minnesota AIDS Project, Mission Area Plan/Planning, Mission Assurance Plan, Mission Automation Plan, Missouri Assessment Program, Mitigation Action Plans, Mitogen-Activated Protein, Mitsubishi Assistance Package, Mixed Activation Products, Mobile Access Platform, Mobile Access Protocol, Mobile Agp Packet, Mobile Anchor Point, Mobile Antenna Platform, Mobile Application Part (GSM), Mobile Assistance Patrol, Mobility Anchor Point, Modern Aids to Planning, Modernization of Administrative Processes, Modified American Plan (hospitality industry), Modified Atmosphere Packaging, Modular Architecture Platform, Modular Avionics Package, Moisture, Ash and Protein, Mold Array Package, Monitored Asynchronous Protocol, Monitoring Attitudes of the Public (ACLI Survey), Monitoring the AIDS Pandemic (Pande'mie Mondiale de VIH/SIDA), Monoammonium Phosphate (agrochemistry), Monophasic Action Potential (cardiac electrophysiology), Montana Advocacy Program, Montreal Action Plan, Morbidity and Performance Assessment, Morning After Pill, Mortgagor Assistance Program (mortgage industry CRM), Mortier Adhe'sif Pla^tre (French: Skim Coat Plaster; a construction material), Morton Area Players, Motivation for Academic Performance (Duke University), Motorist Assistance Patrol, Motorist Assurance Program, Mouse Antibody Production, Mouse Atlas Project, Move Assistance Program, Movement And Position (tracking system), Multi Access Portal, Multi Agent Planning, Multi-Agency Profiler, Multi-Agency Project, Multi-Country AIDS Program (World Bank), Multicultural Achievers Program, Multidimensional Assignment Problem, Multimodal Application Platform (LiteScape), Multiple Access Protocol, Multiple Aim Point System, Multiplexed Access Point, Multiplexer Access Point, Multiservice Access Platform, Municipal Airport, Mural Arts Program (Philadelphia, Pennsylvania public art project), Mutualized Access Point, Mutually Agreed Positions, Mycobacterium Avium-subspecies Paratuberculosis, missed approach procedure (US DoD)14) Вычислительная техника: Manageability, Availability, Performance, Microprocessor Analysis Package, Mobile Application Part, Manufacturing Automation Protocol (General Motors), Maintenance Analysis Procedure (IBM), Mobile Application Part (MSC, GSM, Mobile-Systems), модульный акустический процессор15) Нефть: maximum allowable pressure16) Генетика: microtubule-associated proteins17) Космонавтика: Mediterranean Action Plan, Middle Atmosphere Program (SCOSTEP)18) Воздухоплавание: Minimum Audible Pressure19) Упаковка: (modified atmosphere packaging) упаковывание в модифицированной газовой среде (МГС)20) Глоссарий компании Сахалин Энерджи: Master Approvals Plan22) Сетевые технологии: мэйнфрейм, протокол автоматизации производства, центральная ЭВМ23) Полимеры: manifold air pressure24) Авиационная медицина: mean arterial pressure25) Расширение файла: Manufacturing Automation Protocol, Message Acceptance Pulse, Map file (usually created by compilers)26) Логистика: ПДЧ (Membership Action Plan - NATO)27) Карачаганак: Management Action Plan (План управленческих мероприятий) (отчёт по аудиту, мероприятия которые нужно провести по его результатам) -
113 Mic
1) Общая лексика: ОПК (military-industrial complex), минимальная доза ингибитора (minimum inhibiting concentration), minimum igniting current2) Компьютерная техника: medium-interface connector3) Медицина: minimal inhibitory concentration, morbus ischaemicus cordis4) Спорт: Make It Count5) Военный термин: MLRS International Corporation, Management Indicator Code, Maritime Intelligence Center, Meteorological Information Committee, Military Intelligence Committee, Multinational Intelligence Cell, maintenance information center, maintenance information chart, management information center, message identification code, mid-intensity conflict, military industrial complex, monitoring, identification, and correlation6) Техника: marine information center, methyl isothiocyanate, microbiologically induced corrosion, microbiologically influenced corrosion, microscopic, microwave interference coordination, mutual interference chart7) Химия: метилизоцианат ( Methyl isocyanate)8) Юридический термин: Minor In Consumption9) Автомобильный термин: mechanical instrument cluster10) Телекоммуникации: Medium Interface Connector (FDDI)11) Сокращение: MLRS International Corp. (UK), Media (medium) interface connector, Microwave Integrated Circuit, Military-Industrial Complex (Russia), microphone, Message Integrity Check, Microbiologically Influenced Corrosion, Middle-In-Chain, Minimum Inhibitory Concentration12) Физика: Measuring Ionization Chamber13) Электроника: Monolithic Integrated Circuits14) Вычислительная техника: Management Information Centers, Management Integration Consortium, Memory In Cassette, Message Integrity Check / Code, microelectronic integrated circuit, monolithic integrated circuit, multimedia interactive control, Media Interface Connector (FDDI, PMD), Multiple Interface Connection (Kyocera), Memory in Cassette (Seagate, EEPROM, Streamer, AIT)15) Микробиология: minimum inhibitory concentration (минимальная подавляющая концентрация)16) Транспорт: Maximum Import Capacity17) Фирменный знак: Music Industry Coalition18) СМИ: Movie Item Collection19) Деловая лексика: Made In Canada, Market Intelligence Center, Meetings Industry Council20) Сетевые технологии: medium interface connector, Консорциум по интеграции средств сетевого управления, Консорциум по объединению систем управления, интерфейсный соединитель со средой, соединитель для подключения терминала к интерфейсу шины21) Безопасность: message integrity code22) Расширение файла: Master Interrupt Control, Microsoft Image Composer Data23) Электротехника: marketing interface to customer24) ООН: Man In Charge25) Должность: Midget In Charge, Music Industry Consultant -
114 map
1) Общая лексика: белки, а (группа белков, обеспечивающих поступательное движение за счёт толкательного усилия (динеин, кинезин, синколин), а также связывание и стабильность комплексов микротрубочек (белки -МАР, МАР2), - например, в составе веретена деления)2) Медицина: microtubules associated proteins, mean airway pressure (среднее давление в дыхательных путях), среднее артериальное давление, (method of activated particles) МАЧ (метод активированных частиц), mitral annuloplasty, malignant atrophic papulosis3) Военный термин: Master Attack Plan, Materiel Acquisition Process, Ministry of Aircraft Production, management analysis program, management assessment program, manpower allocation procedure, mechanical ambush patrol, medical aid post, military aid program, military aptitude predictor, military audit project, military automatic pistol, missile and package tester, modular avionics packaging, multiple aim point, munitions acquisition plan, mutual aid program, mutual assistance pact, mutual assistance plan, mutual assistance program, Ministry of Aviation Industry (USSR)4) Техника: Military Assistance Program, maintenance action plan, maintenance assessment package, maximum posteriori, memory allocation and protection, memory allocation and protection unit, message administration procedures, methodology assessment program, mitigation action plan, multiassociative processor, multiple-access processing, упаковывание в модифицированной газовой среде (modified atmosphere packaging)5) Сельское хозяйство: Monoammonium Phosphate, mean aortic pressure6) Химия: моноаммонийфосфат9) Страхование: market assistance plan10) Автомобильный термин: manifold absolute pressure - датчик давления во впускном коллекторе, manifold absolute pressure sensor, maniford absolute pressure (Krokodil), manifold absolute pressure (Krokodil)11) Оптика: measurement assurance program12) Телекоммуникации: Maintenance Administration Panel, Management Application Protocol, Manufacturing Automation Protocol (GM)13) Сокращение: MILSTAR Advanced Processor (USA), Membership Action Plan (NATO), Military Aid Program (USA), Military Assistance Program (USA), Ministry of Aviation Technology (Russia), Missed Approach Point, Mission Area Plan, Modular Acoustic Processor, Multiple Aim Point (USAF), Mutual Assistance Programme, Macroassembly Program, NATO Membership Action Plan, Linker Map (File Name Extension), MSN, Accessories, & PSP (Performance Service Plans) (Best Buy), Machinist Apprentice Program, Macro Arithmetic Processor, Macro Assembly Program, Macroeconomic Analysis and Policy, Madagascar Action Plan, Magnesium Ammonium Phosphate, Magnetic-Acoustic-Pressure, Magnetically Accelerated Projectile (Star Wars), Main Audio Program, Mainframe Acquisition Project, Maintenance Activation Plan, Maintenance Activity Pirmasens, Maintenance Analysis Procedures, Maintenance and Administrative Position (Nortel), Major Accounts Processing, Major Sync Point (ITU-T), Making Action Plans, Management Achievement Plan, Management Action Plan, Management Assistance Program, Management Process, Maneuverable Atmosphere Probe(s), Manifold Absolute Pressure, Manpower Analysis Paper, Manufacturing Application Protocol, Manufacturing Assembly Procedure, Manufacturing Automated Protocol, Manufacturing Automation Profile, Mapei - Quick Step (Tour de France cycling sponsor), Marathon Ashland Petroleum LLC, Marine Advisory Program, Marine Animal Productions, Maritime Airborne Patrol, Market Access Program, Market Analysis Portfolio, Market Analysis and Planning (Sprint - ISMF), Market Area Planning, Marketing Association of Pakistan, Markovian Arrival Process (concept in probability theory), Mass Air Pressure (sensor), Master Action Plan, Master Amino Acid Pattern, Master of Applied Politics, Materiel Acquisition Plan, Maximum A Posteriori Probability, Maximum A Posteriori estimate, Mazda Advancement Plan, Mean Airway Pressure, Mean Annual Precipitation, Measure of Academic Progress, Measurement Adoption Process, Media Accelerated Processor, Media Access Procedure, Media Access Project, Media Awareness Project, Medical Advantage Plan (AARP), Medical Aid for Palestinians, Medical Assessment Process, Medical Assistance Plan, Medical Assistance Program, Medical Assistance Program International, Medicare Advocacy Project, Medication Access Program (Georgia), Melanesian Alliance Party (Papua New Guinea), Membership Action Plan (NATO), Membrane Associated Protein, Memory Address Print, Memory Algorithm Processor, Memory Alliance Program, Memory Allocation Map, Merchant Account Provider, Merit Award Program (education), Mesh Access Point, Message Access Protocol, Message Application Part (Sprint), Message Application Programming, Messaging Application Protocol, Meteorology and Atmospheric Physics, Metropolitan Area Program, Mian Azmat Professionals (cricket), Michigan Adventure Park (Muskegon, Michigan), Michigan Advocacy Project, Michigan Airglow Payload, Microprocessor Applications Project, Microtubule-Associated Protein, Microwave Anisotropy Probe (NASA), Microwave Assisted Process (for detection of pollutants), Midrange Alliance Program, Military Advisory Panel, Military Aeronautical Pentathlon, Military Assistance Program (US), Milstar Advanced Processor, Miniature Array Package, Minimum Acceptable Performance (Hekimian), Minimum Advertised Price, Minimum-Advertised Pricing, Mining Automation Program (MMS Canada), Ministry for Antimonopoly Policy (Russian Federation), Minnesota AIDS Project, Mission Area Plan/Planning, Mission Assurance Plan, Mission Automation Plan, Missouri Assessment Program, Mitigation Action Plans, Mitogen-Activated Protein, Mitsubishi Assistance Package, Mixed Activation Products, Mobile Access Platform, Mobile Access Protocol, Mobile Agp Packet, Mobile Anchor Point, Mobile Antenna Platform, Mobile Application Part (GSM), Mobile Assistance Patrol, Mobility Anchor Point, Modern Aids to Planning, Modernization of Administrative Processes, Modified American Plan (hospitality industry), Modified Atmosphere Packaging, Modular Architecture Platform, Modular Avionics Package, Moisture, Ash and Protein, Mold Array Package, Monitored Asynchronous Protocol, Monitoring Attitudes of the Public (ACLI Survey), Monitoring the AIDS Pandemic (Pande'mie Mondiale de VIH/SIDA), Monoammonium Phosphate (agrochemistry), Monophasic Action Potential (cardiac electrophysiology), Montana Advocacy Program, Montreal Action Plan, Morbidity and Performance Assessment, Morning After Pill, Mortgagor Assistance Program (mortgage industry CRM), Mortier Adhe'sif Pla^tre (French: Skim Coat Plaster; a construction material), Morton Area Players, Motivation for Academic Performance (Duke University), Motorist Assistance Patrol, Motorist Assurance Program, Mouse Antibody Production, Mouse Atlas Project, Move Assistance Program, Movement And Position (tracking system), Multi Access Portal, Multi Agent Planning, Multi-Agency Profiler, Multi-Agency Project, Multi-Country AIDS Program (World Bank), Multicultural Achievers Program, Multidimensional Assignment Problem, Multimodal Application Platform (LiteScape), Multiple Access Protocol, Multiple Aim Point System, Multiplexed Access Point, Multiplexer Access Point, Multiservice Access Platform, Municipal Airport, Mural Arts Program (Philadelphia, Pennsylvania public art project), Mutualized Access Point, Mutually Agreed Positions, Mycobacterium Avium-subspecies Paratuberculosis, missed approach procedure (US DoD)14) Вычислительная техника: Manageability, Availability, Performance, Microprocessor Analysis Package, Mobile Application Part, Manufacturing Automation Protocol (General Motors), Maintenance Analysis Procedure (IBM), Mobile Application Part (MSC, GSM, Mobile-Systems), модульный акустический процессор15) Нефть: maximum allowable pressure16) Генетика: microtubule-associated proteins17) Космонавтика: Mediterranean Action Plan, Middle Atmosphere Program (SCOSTEP)18) Воздухоплавание: Minimum Audible Pressure19) Упаковка: (modified atmosphere packaging) упаковывание в модифицированной газовой среде (МГС)20) Глоссарий компании Сахалин Энерджи: Master Approvals Plan22) Сетевые технологии: мэйнфрейм, протокол автоматизации производства, центральная ЭВМ23) Полимеры: manifold air pressure24) Авиационная медицина: mean arterial pressure25) Расширение файла: Manufacturing Automation Protocol, Message Acceptance Pulse, Map file (usually created by compilers)26) Логистика: ПДЧ (Membership Action Plan - NATO)27) Карачаганак: Management Action Plan (План управленческих мероприятий) (отчёт по аудиту, мероприятия которые нужно провести по его результатам) -
115 mic
1) Общая лексика: ОПК (military-industrial complex), минимальная доза ингибитора (minimum inhibiting concentration), minimum igniting current2) Компьютерная техника: medium-interface connector3) Медицина: minimal inhibitory concentration, morbus ischaemicus cordis4) Спорт: Make It Count5) Военный термин: MLRS International Corporation, Management Indicator Code, Maritime Intelligence Center, Meteorological Information Committee, Military Intelligence Committee, Multinational Intelligence Cell, maintenance information center, maintenance information chart, management information center, message identification code, mid-intensity conflict, military industrial complex, monitoring, identification, and correlation6) Техника: marine information center, methyl isothiocyanate, microbiologically induced corrosion, microbiologically influenced corrosion, microscopic, microwave interference coordination, mutual interference chart7) Химия: метилизоцианат ( Methyl isocyanate)8) Юридический термин: Minor In Consumption9) Автомобильный термин: mechanical instrument cluster10) Телекоммуникации: Medium Interface Connector (FDDI)11) Сокращение: MLRS International Corp. (UK), Media (medium) interface connector, Microwave Integrated Circuit, Military-Industrial Complex (Russia), microphone, Message Integrity Check, Microbiologically Influenced Corrosion, Middle-In-Chain, Minimum Inhibitory Concentration12) Физика: Measuring Ionization Chamber13) Электроника: Monolithic Integrated Circuits14) Вычислительная техника: Management Information Centers, Management Integration Consortium, Memory In Cassette, Message Integrity Check / Code, microelectronic integrated circuit, monolithic integrated circuit, multimedia interactive control, Media Interface Connector (FDDI, PMD), Multiple Interface Connection (Kyocera), Memory in Cassette (Seagate, EEPROM, Streamer, AIT)15) Микробиология: minimum inhibitory concentration (минимальная подавляющая концентрация)16) Транспорт: Maximum Import Capacity17) Фирменный знак: Music Industry Coalition18) СМИ: Movie Item Collection19) Деловая лексика: Made In Canada, Market Intelligence Center, Meetings Industry Council20) Сетевые технологии: medium interface connector, Консорциум по интеграции средств сетевого управления, Консорциум по объединению систем управления, интерфейсный соединитель со средой, соединитель для подключения терминала к интерфейсу шины21) Безопасность: message integrity code22) Расширение файла: Master Interrupt Control, Microsoft Image Composer Data23) Электротехника: marketing interface to customer24) ООН: Man In Charge25) Должность: Midget In Charge, Music Industry Consultant -
116 printing
1. печать, печатание2. фотографическое копирование; копирование на формную пластину3. печатное издание4. тираж5. полиграфия, полиграфическая промышленность6. различные сорта печатной бумагиprinting together — печатание «со своим оборотом»
printing two-up — печатание двойников, параллельное печатание с двух одинаковых форм
printing verse — печатание на обороте, запечатывание оборотной стороны
address printing — адресование, печатание адреса
arc printing — дуговая печать, печатание с помощью электрической дуги
7. печатание на оборотной стороне прозрачной плёнкиbackground printing — фоновая печать, печатание фона
bible printing — словарная бумага, библьдрук
bichromate printing — печатание с форм, изготовленных с использованием хромированных коллоидов
8. печатание голубой краской; светокопирование9. изготовление синих копий, изготовление «синек»Braille printing — Брайлевская печать, печать для слепых
bronze printing — бронзирование, печатание бронзовой краской
10. печатание на картонных заготовках; печатание на картоне11. производство картонных упаковокcode printing — печатание кодовых меток, печатание кодовых знаков, кодирование, шифрование
12. цветная печатная бумагаcolor process printing — многокрасочное печатание с форм, изготовленных фотомеханическим способом
13. контактная печать14. контактное копированиеprinting lamp — лампа для копирования, копировальная лампа
15. печатание издания в нескольких вариантах с учётом интересов потребителей16. печатание по требованию одного экземпляра издания17. прямое контактное копирование18. прямая печать19. печатание с первичной формы20. печатание изобразительной продукцииprinting contrast — контраст, реализуемый при печатании
21. печатание на прозрачном материалеdot-in-dot printing — печатание с точной приводкой, печатание «точка в точку»
dot matrix character printing — печатание знаков, формируемых точечной матрицей
printing process — печатный процесс; процесс печатания
22. двукратное запечатывание23. комбинирование деталей двух разных негативов на одном позитиве или печатной формеduotone printing — печатание двухкрасочных репродукций с одноцветного оригинала, дуплекс-автотипия
electrophoretic printing — электрофоретическая печать, способ электрофоретической печати
electrostatographic printing — электрография, электрографическая печать
embossed printing for blind — рельефная печать для слепых, Брайлевская печать
facsimile printing — факсимильное воспроизведение, факсимильная печать
ferromagnetic printing — печатание ферромагнитными красками, магнитографская печать, магнитография
flat-bed printing — печатание на плоскопечатных машинах, печатание с плоских форм высокой печати
flexographic printing — флексографская печать, печатание с эластичных форм
form skip printing — печатание формуляров с пропусками отдельных пунктов на последовательно идущих страницах
24. четырёхкрасочная печатьprinting device — печатающее устройство; устройство печати
printing station — пункт вывода на печать; станция печати
25. печатание в четыре краски26. многокрасочная печать всеми основными краскамиgelatin printing — фототипия, печать с желатиновых печатных форм
27. нанесение клеевого слоя28. гуммированиеheat-set printing — печатание красками, закрепляющимися под действием нагрева
helios printing — гелиопечать, гелиография
hot foil printing — горячее тиснение фольгой, тиснение фольгой с использованием нагретого штампа
29. переводной способ копирования30. печатание через промежуточную поверхность; офсетная печать31. ведомственная печать32. внутрифирменная печатьiridescent printing — радужная печать; печать враскат
level impression printing — печатание с равномерным натиском, печатание с равномерным давлением
33. печатание литографским способом, литография34. офсетная печатьmagnetic ink printing — печатание магнитными красками, магнитографская печать, магнитография
35. картографическая печать, картопечатание36. производство картографической продукции37. копирование изображения на металлическую пластину38. печатание на металле39. акцидентная печать40. печатание акцидентной продукции41. однокрасочная печать42. печатание однокрасочной продукцииprinting pressure — давление печатания, натиск
43. многокрасочная печать44. печатание многокрасочной продукцииmultigraph printing — печатание с ручного набора, закреплённого на цилиндре
45. печатание газетно-журнальной продукции46. газетно-журнальное производство47. печатание газет48. газетное производствоoff-register printing — печатание с несовмещением, печатание с нарушением приводки
offset printing — офсет, офсетная печать
49. распечатка информации, хранящейся в базе данных вычислительной системы по требованию50. печатание по требованию51. печатание персонализированных изданий52. оптическая печать53. проекционное копирование54. печатание на упаковочных материалах55. производство упаковкиpackaging printing and converting — печать и изготовление упаковок; печать и изготовление тары
56. фотография57. фотопечать; копированиеphotographic offset printing — офсетная печать с форм, изготовленных фотомеханическим способом
58. глубокая печать59. печатание с гелиогравюрphotolithooffset printing — офсетная печать с форм, изготовленных фотомеханическим способом
60. печатание с форм, изготовленных фотомеханическим способом61. фотомеханический способ размножения62. печатание с гравированных медных пластин63. печатание вкладных иллюстрацийprocess printing — многокрасочная печать с форм, изготовленных фотомеханическим способом
64. печатание издательской продукции65. заключительная стадия печатанияraised printing — печатание с последующим оплавлением рельефа; рельефная печать
66. рефлексное копирование67. рефлексное печатание68. печатание с выворотных форм69. печатание с реверсивным приводом цилиндров; реверсивное печатание70. печатание на обороте, запечатывание оборотной стороныrotary printing — ротационная печать, печатание на ротационных машинах
71. печатание многокрасочных газет «по сырому»72. цветные краски для печатания газет73. растровая печать74. второй завод, допечаткаprinting mistake — опечатка, типографская ошибка
75. второй прогонselective printing — избирательное печатание, печатание с избирательным воспроизведением знаков
76. малотиражная печать77. малотиражное копированиеside-by-side printing — радужная печать, печать враскат
small offset printing — «малый офсет», печатание малоформатной продукции офсетным способом
solid printing — печатание со сплошных форм, печатание плашек
solid color printing — печатание со сплошных форм цветными красками, печатание цветных плашек
solventless printing — печатание красками, не содержащими растворителя
split color printing — радужная печать, печать враскат
78. трафаретная печать79. ротаторная печатьsublimatic heat transfer printing — термодекалькомания, сублимационная печать
test printing — пробное печатание, изготовление пробных оттисков
thermal printing — термопечать, термографская печать, термография; печатание термокрасками
thermographic printing — термопечать, термографская печать, термография, печатание термокрасками
three-color process printing — трёхкрасочная печать с цветоделённых печатных форм, изготовленных фотомеханическим способом
three-over-one printing — печатание красочностью 3+1
80. печатание на тканях81. печатание на тонкой бумаге82. декалькомания, печатание переводных изображений83. печатание с переносом изображенияtrouble-free printing — бесперебойное печатание, печатание без помех и перебоев
vapor printing — «дымовая» печать, печатание паром
water-based ink printing — печатание водными красками, печатание красками на водной основе
web printing — печатание на рулонном материале, рулонная печать
wood block printing — печатание с деревянного клише; ксилография
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117 Cockerill, William
SUBJECT AREA: Textiles[br]b. 1759 Lancashire, Englandd. 1832 near Aix-la-Chapelle, France (now Aachen, Germany)[br]English (naturalized Belgian c. 1810) engineer, inventor and an important figure in the European textile machinery industry.[br]William Cockerill began his career in Lancashire by making "roving billies" and flying shuttles. He was reputed to have an extraordinary mechanical genius and it is said that he could make models of almost any machine. He followed in the footsteps of many other enterprising British engineers when in 1794 he went to St Petersburg in Russia, having been recommended as a skilful artisan to the Empress Catherine II. After her death two years later, her successor Paul sent Cockerill to prison because he failed to finish a model within a certain time. Cockerill, however, escaped to Sweden where he was commissioned to construct the locks on a public canal. He attempted to introduce textile machinery of his own invention but was unsuccessful and so in 1799 he removed to Verviers, Belgium, where he established himself as a manufacturer of textile machinery. In 1802 he was joined by James Holden, who before long set up his own machine-building business. In 1807 Cockerill moved to Liège where, with his three sons (William Jnr, Charles James and John), he set up factories for the construction of carding machines, spinning frames and looms for the woollen industry. He secured for Verviers supremacy in the woollen trade and introduced at Liège an industry of which England had so far possessed the monopoly. His products were noted for their fine craftsmanship, and in the heyday of the Napoleonic regime about half of his output was sold in France. In 1813 he imported a model of a Watt steam-engine from England and so added another range of products to his firm. Cockerill became a naturalized Belgian subject c. 1810, and a few years later he retired from the business in favour of his two younger sons, Charles James and John (b. 30 April 1790 Haslingden, Lancashire, England; d. 19 June 1840 Warsaw, Poland), but in 1830 at Andenne he converted a vast factory formerly used for calico printing into a paper mill. Little is known of his eldest son William, but the other two sons expanded the enterprise, setting up a woollen factory at Berlin after 1815 and establishing at Seraing-on-the-Meuse in 1817 blast furnaces, an iron foundry and a machine workshop which became the largest on the European continent. William Cockerill senior died in 1832 at the Château du Behrensberg, the residence of his son Charles James, near Aix-la-Chapelle.[br]Further ReadingW.O.Henderson, 1961, The Industrial Revolution on the Continent, Manchester (a good account of the spread of the Industrial Revolution in Germany, France and Russia).RTS / RLH -
118 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 -
119 Hancock, Thomas
SUBJECT AREA: Chemical technology[br]b. 8 May 1786 Marlborough, Wiltshire, Englandd. 26 March 1865 Stoke Newington, London, England[br]English founder of the British rubber industry.[br]After education at a private school in Marlborough, Hancock spent some time in "mechanical pursuits". He went to London to better himself and c.1819 his interest was aroused in the uses of rubber, which until then had been limited. His first patent, dated 29 April 1820, was for the application of rubber in clothing where some elasticity was useful, such as braces or slip-on boots. He noticed that freshly cut pieces of rubber could be made to adhere by pressure to form larger pieces. To cut up his imported and waste rubber into small pieces, Hancock developed his "masticator". This device consisted of a spiked roller revolving in a hollow cylinder. However, when rubber was fed in to the machine, the product was not the expected shredded rubber, but a homogeneous cylindrical mass of solid rubber, formed by the heat generated by the process and pressure against the outer cylinder. This rubber could then be compacted into blocks or rolled into sheets at his factory in Goswell Road, London; the blocks and sheets could be used to make a variety of useful articles. Meanwhile Hancock entered into partnership with Charles Macintosh in Manchester to manufacture rubberized, waterproof fabrics. Despite these developments, rubber remained an unsatisfactory material, becoming sticky when warmed and losing its elasticity when cold. In 1842 Hancock encountered specimens of vulcanized rubber prepared by Charles Goodyear in America. Hancock worked out for himself that it was made by heating rubber and sulphur, and obtained a patent for the manufacture of the material on 21 November 1843. This patent also included details of a new form of rubber, hardened by heating to a higher temperature, that was later called vulcanite, or ebonite. In 1846 he began making solid rubber tyres for road vehicles. Overall Hancock took out sixteen patents, covering all aspects of the rubber industry; they were a leading factor in the development of the industry from 1820 until their expiry in 1858.[br]Bibliography1857, Personal Narrative of the Origin and Progress of the Caoutchouc or Indiarubber Manufacture in England, London.Further ReadingH.Schurer, 1953, "The macintosh: the paternity of an invention", Transactions of the Newcomen Society 28:77–87.LRD -
120 Keller, Friedrich Gottlieb
SUBJECT AREA: Paper and printing[br]b. 27 June 1818 Hainichen, Saxony, Germanyd. 8 September 1895 Krippen, Bad Schandau, Germany[br]German inventor of wood-pulp paper.[br]The son of a master weaver, he originally wished to become an engineer, but while remaining in the parental home he had to follow his father's trade in the textile industry, becoming a master weaver himself in 1839 at Hainichen. He was a good observer and a keen model maker. It was at this stage, in the early 1840s, that he began experimenting with a new material for papermaking. Until then the raw material had been waste rag from the textile industry, but the ever-increasing demands of the mechanical printing presses, especially those producing newspapers, were beginning to outstrip supply. Keller tried using pine wood ground with a wet grindstone. The mass of fibres that resulted was then heated with water to form a thick brew which he then strained through a cloth. By this means Keller obtained a pulp that could be used for papermaking. He constructed a simple grinding machine that could disintegrate the wood without splinters; this was used to make paper in the Altchemnitzer paper mill, and the newspaper Frankenberger Intelligenz-und Wochenblatt was the first to be printed on wood-pulp paper. Keller could not secure state funds to promote his invention, so he approached an expert in papermaking, Heinrich Voelter, Technical Director of the Vereinigten Bautzener Papierfabrik. Voelter put up 700 thaler, and in August 1845 the state of Saxony granted a patent in both their names. In 1848 the first practical machine for grinding wood was produced, but four years later the patent expired. Unfortunately Keller could not afford the renewal fee, and it was Voelter who developed the process of wood-pulp papermaking under his own name, leaving Keller behind. Without this invention, the output of paper from the mills could not have kept pace with the demands of the printing industry, and the mass readership that these technological developments made possible could not have been served. It is no fault of Keller's that wood-pulp paper contains within itself the seeds of its own deterioration and ultimate destruction, presenting librarians of today with an intractable problem of preservation. Keller's part in this technical breakthrough is established in his "ideas" notebook covering the years 1841 and 1842, preserved in the museum at Hainichen.[br]Further ReadingNeue deutsche Biographie. VDI Zeitschrift, Vol. 39, p. 1,238."EineErfindungvon Weltruf", 1969, VDI Nachrichten. Vol. 29, p. 18.Clapperton, History ofPapermaking Through the Ages (provides details of the development of wood-pulp papermaking in its historical context).LRDBiographical history of technology > Keller, Friedrich Gottlieb
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