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1 patent an innovation
Экономика: запатентовать новинку -
2 to patent an innovation
English-russian dctionary of contemporary Economics > to patent an innovation
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3 innovation
nнововведение, новшество; новинка
- bunching innovations
- capital-saving innovation
- labour-saving innovation
- product innovation
- technical innovation
- technological innovation
- innovation in manufacture
- innovation in production
- innovation in technology
- advertise an innovation
- introduce innovations
- patent an innovationEnglish-russian dctionary of contemporary Economics > innovation
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4 INNOVATION
Нововведение
Новые технологии или новые товары, являющиеся результатом достижений научно-технического прогресса. Внедрение инноваций дает компании возможность повысить свою конкурентоспособность, поскольку позволяет ей использовать преимущества дифференциации продукции, а также способствует повышению эффективности функционирования рынка (например, за счет снижения издержек производства и улучшения качества продукции). Инновационный процесс может быть длительным и дорогостоящим. Копировальная технология, например, была изобретена компанией Ксерокс в 1948 г., однако потребовалось еще 10 лет исследовательских работ, прежде чем на рынке появилась первая копировальная машина. См. Technological progressiveness, Product life cycle, Product development, Patent, Financial innovation.Новый англо-русский словарь-справочник. Экономика. > INNOVATION
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5 innovation proposal
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6 innovation
сущ.1) общ. инновация, новшество, нововведение, рационализаторское предложение (изменение технологии, организации производства или самого продукта, которое осуществляется с целью достижения более высокой эффективности или создания новой ценности);managerial innovation — инновация в сфере управления [менеджмента\], управленческая инновация
Syn:See:CHILD [object\]: business model innovation, design innovation, epoch-making innovation, factor-saving innovation, financial innovation, design innovation industrial innovation, management innovation, manufacturing innovation, product innovation, technical innovation CHILD [type\]: architectural innovation, competence-destroying innovation, competence-enhancing innovation, competitive innovation, continuous innovation, discontinuous innovation, disruptive innovation, hi-tech innovation, low-tech innovation, cluster of innovations, innovation patent, innovator2) эк. инновации, осуществление инноваций (как процесс; употребляется без артикля или как атрибут)planned [purposeful\] innovation — планируемые инновации
Based partially on the belief that innovation is not possible under perfect competition, many thousands papers have been written about the nature of innovation under monopoly or oligopoly. — Тысячи статей были посвящены природе инновационного процесса в ситуации монополии и олигополии, предполагая невозможность осуществления инноваций в условиях совершенной конкуренции
See:3) соц. инновационность (по Мертону: тип адаптации индивида к новым социокультурным реалиям, когда принимаются социальные цели, но не способы их достижения: напр., рэкет, подделки денег, воровство, злоупотребления)See:
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инновация: нововведение, создание и внедрение нового продукта или услуги, позитивные изменения, усовершенствование; см. financial innovation.* * *новшество; нововведение. . Словарь экономических терминов .* * *вложение средств в экономику, обеспечивающее смену поколений техники и технологии-----любой новый подход к конструированию, производству или сбыту товара, в результате чего инноватор и его компания получают преимущества перед конкурентами -
7 innovation patent
пат. инновационный патент, малый патент, патент на изобретение (автор технических усовершенствований рабочих приборов или предметов потребления получает право исключительного использования этого изобретения в течение ограниченного периода времени, который короче чем у стандартного патента)Syn: -
8 patent-protected product innovation
Универсальный англо-русский словарь > patent-protected product innovation
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9 innovation patent
Англо-русский словарь по исследованиям и ноу-хау > innovation patent
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10 improvement suggestion
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11 Bramah, Joseph
SUBJECT AREA: Civil engineering, Domestic appliances and interiors, Land transport, Mechanical, pneumatic and hydraulic engineering, Public utilities[br]b. 2 April 1749 Stainborough, Yorkshire, Englandd. 9 December 1814 Pimlico, London, England[br]English inventor of the second patented water-closet, the beer-engine, the Bramah lock and, most important, the hydraulic press.[br]Bramah was the son of a tenant farmer and was educated at the village school before being apprenticed to a local carpenter, Thomas Allot. He walked to London c.1773 and found work with a Mr Allen that included the repair of some of the comparatively rare water-closets of the period. He invented and patented one of his own, which was followed by a water cock in 1783. His next invention, a greatly improved lock, involved the devising of a number of special machine tools, for it was one of the first devices involving interchangeable components in its manufacture. In this he had the help of Henry Maudslay, then a young and unknown engineer, who became Bramah's foreman before setting up business on his own. In 1784 he moved his premises from Denmark Street, St Giles, to 124 Piccadilly, which was later used as a showroom when he set up a factory in Pimlico. He invented an engine for putting out fires in 1785 and 1793, in effect a reciprocating rotary-vane pump. He undertook the refurbishment and modernization of Norwich waterworks c.1793, but fell out with Robert Mylne, who was acting as Consultant to the Norwich Corporation and had produced a remarkably vague specification. This was Bramah's only venture into the field of civil engineering.In 1797 he acted as an expert witness for Hornblower \& Maberley in the patent infringement case brought against them by Boulton and Watt. Having been cut short by the judge, he published his proposed evidence in "Letter to the Rt Hon. Sir James Eyre, Lord Chief Justice of the Common Pleas…etc". In 1795 he was granted his most important patent, based on Pascal's Hydrostatic Paradox, for the hydraulic press which also incorporated the concept of hydraulics for the transmission of both power and motion and was the foundation of the whole subsequent hydraulic industry. There is no truth in the oft-repeated assertion originating from Samuel Smiles's Industrial Biography (1863) that the hydraulic press could not be made to work until Henry Maudslay invented the self-sealing neck leather. Bramah used a single-acting upstroking ram, sealed only at its base with a U-leather. There was no need for a neck leather.He also used the concept of the weight-loaded, in this case as a public-house beer-engine. He devised machinery for carbonating soda water. The first banknote-numbering machine was of his design and was bought by the Bank of England. His development of a machine to cut twelve nibs from one goose quill started a patent specification which ended with the invention of the fountain pen, patented in 1809. His coach brakes were an innovation that was followed bv a form of hydropneumatic carriage suspension that was somewhat in advance of its time, as was his patent of 1812. This foresaw the introduction of hydraulic power mains in major cities and included the telescopic ram and the air-loaded accumulator.In all Joseph Bramah was granted eighteen patents. On 22 March 1813 he demonstrated a hydraulic machine for pulling up trees by the roots in Hyde Park before a large crowd headed by the Duke of York. Using the same machine in Alice Holt Forest in Hampshire to fell timber for ships for the Navy, he caught a chill and died soon after at his home in Pimlico.[br]Bibliography1778, British patent no. 1177 (water-closet). 1784, British patent no. 1430 (Bramah Lock). 1795, British patent no. 2045 (hydraulic press). 1809, British patent no. 3260 (fountain pen). 1812, British patent no. 3611.Further ReadingI.McNeil, 1968, Joseph Bramah, a Century of Invention.S.Smiles, 1863, Industrial Biography.H.W.Dickinson, 1942, "Joseph Bramah and his inventions", Transactions of the Newcomen Society 22:169–86.IMcN -
12 Woodbury, Walter Bentley
SUBJECT AREA: Photography, film and optics[br]b. 1834 Manchester, Englandd. 1885 Margate, Kent, England[br]English photographer, inventor of the Woodburytype process.[br]Having been apprenticed to be an engineer, Woodbury left England in 1851 to seek his fortune in the Australian gold-fields. Like many others, he failed, and after a series of transient jobs found a post as Draughtsman at the Melbourne Waterworks. He then went on to Java, where he practised wet-collodion photography before returning to England finally in 1863. Woodbury settled in Birmingham, where like most contemporary photographers he was concerned to find a solution to the troublesome problem of fading prints. He began working the carbon process, and in 1866 and 1867 took out a series of patents which were to lead to the development of the process that took his name. Woodburytypes were continuous-tone prints of high quality that could be mass produced more cheaply than the traditional silver print. This was an important innovation and Woodburytypes were extensively used for quality book illustrations until the introduction of more versatile photomechanical processes in the 1890s. In all, Woodbury took out twenty patents between 1864 and 1884, some relating to a wide range of photographic devices. He was still working to simplify the Woodburytype process when he died from an overdose of laudanum.[br]BibliographyWoodbury took out a series of patents on his process, the most significant being: 23 September 1864, British patent no. 2,338; 12 January 1866, British patent no. 105; 11 February 1866, British patent no. 505; 8 May 1866, British patent no. 1,315; 24 July 1866, British patent no. 1,918.Further ReadingG.Tissandier, 1876, A History and Handbook of Photography, trans. J.Thomson.B.E.Jones (ed.), 1911, Cassell's Cyclopaedia of Photography, London (a brief biography).J.M.Eder, 1945, History of Photography, trans. E. Epstean, New York.JWBiographical history of technology > Woodbury, Walter Bentley
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13 Armstrong, Edwin Howard
[br]b. 18 December 1890 New York City, New York, USAd. 31 January 1954 New York City, New York, USA[br]American engineer who invented the regenerative and superheterodyne amplifiers and frequency modulation, all major contributions to radio communication and broadcasting.[br]Interested from childhood in anything mechanical, as a teenager Armstrong constructed a variety of wireless equipment in the attic of his parents' home, including spark-gap transmitters and receivers with iron-filing "coherer" detectors capable of producing weak Morse-code signals. In 1912, while still a student of engineering at Columbia University, he applied positive, i.e. regenerative, feedback to a Lee De Forest triode amplifier to just below the point of oscillation and obtained a gain of some 1,000 times, giving a receiver sensitivity very much greater than hitherto possible. Furthermore, by allowing the circuit to go into full oscillation he found he could generate stable continuous-waves, making possible the first reliable CW radio transmitter. Sadly, his claim to priority with this invention, for which he filed US patents in 1913, the year he graduated from Columbia, led to many years of litigation with De Forest, to whom the US Supreme Court finally, but unjustly, awarded the patent in 1934. The engineering world clearly did not agree with this decision, for the Institution of Radio Engineers did not revoke its previous award of a gold medal and he subsequently received the highest US scientific award, the Franklin Medal, for this discovery.During the First World War, after some time as an instructor at Columbia University, he joined the US Signal Corps laboratories in Paris, where in 1918 he invented the superheterodyne, a major contribution to radio-receiver design and for which he filed a patent in 1920. The principle of this circuit, which underlies virtually all modern radio, TV and radar reception, is that by using a local oscillator to convert, or "heterodyne", a wanted signal to a lower, fixed, "intermediate" frequency it is possible to obtain high amplification and selectivity without the need to "track" the tuning of numerous variable circuits.Returning to Columbia after the war and eventually becoming Professor of Electrical Engineering, he made a fortune from the sale of his patent rights and used part of his wealth to fund his own research into further problems in radio communication, particularly that of receiver noise. In 1933 he filed four patents covering the use of wide-band frequency modulation (FM) to achieve low-noise, high-fidelity sound broadcasting, but unable to interest RCA he eventually built a complete broadcast transmitter at his own expense in 1939 to prove the advantages of his system. Unfortunately, there followed another long battle to protect and exploit his patents, and exhausted and virtually ruined he took his own life in 1954, just as the use of FM became an established technique.[br]Principal Honours and DistinctionsInstitution of Radio Engineers Medal of Honour 1917. Franklin Medal 1937. IERE Edison Medal 1942. American Medal for Merit 1947.Bibliography1922, "Some recent developments in regenerative circuits", Proceedings of the Institute of Radio Engineers 10:244.1924, "The superheterodyne. Its origin, developments and some recent improvements", Proceedings of the Institute of Radio Engineers 12:549.1936, "A method of reducing disturbances in radio signalling by a system of frequency modulation", Proceedings of the Institute of Radio Engineers 24:689.Further ReadingL.Lessing, 1956, Man of High-Fidelity: Edwin Howard Armstrong, pbk 1969 (the only definitive biography).W.R.Maclaurin and R.J.Harman, 1949, Invention \& Innovation in the Radio Industry.J.R.Whitehead, 1950, Super-regenerative Receivers.A.N.Goldsmith, 1948, Frequency Modulation (for the background to the development of frequency modulation, in the form of a large collection of papers and an extensive bibliog raphy).KFBiographical history of technology > Armstrong, Edwin Howard
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14 Brayton, George Bailey
SUBJECT AREA: Steam and internal combustion engines[br]b. 1839 Rhode Island, USAd. 1892 Leeds, England[br]American engineer, inventor of gas and oil engines.[br]During the thirty years prior to his death, Brayton devoted considerable effort to the development of internal-combustion engines. He designed the first commercial gas engine of American origin in 1872. An oil-burning engine was produced in 1875. An aptitude for mechanical innovation became apparent whilst he was employed at the Exeter Machine Works, New Hampshire, where he developed a successful steam generator for use in domestic and industrial heating systems. Brayton engines were distinguished by the method of combustion. A pressurized air-fuel mixture from a reservoir was ignited as it entered the working cylinder—a precursor of the constant-pressure cycle. A further feature of these early engines was a rocking beam. There exist accounts of Brayton engines fitted into river craft, and of one in a carriage which operated for a few months in 1872–3. However, the appearance of the four-stroke Otto engine in 1876, together with technical problems associated with backfiring into the fuel reservoir, prevented large-scale acceptance of the Brayton engine. Although Thompson Sterne \& Co. of Glasgow became licensees, the engine failed to gain usage in Britain. A working model of Brayton's gas engine is exhibited in the Museum of History and Technology in Washington, DC.[br]Bibliography1872, US patent no. 125,166 (Brayton gas engine).July 1890, British patent no. 11,062 (oil engine; under patent agent W.R.Lake).Further ReadingD.Clerk, 1895, The Gas and Oil Engine, 6th edn, London, pp. 152–62 (includes a description and report of tests carried out on a Brayton engine).KAB -
15 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 -
16 invention
сущ.1) общ. открытие, изобретение (установление неизвестных ранее объективно существующих закономерностей или явлений окружающего мира, а также способов организации материи или человеческой деятельности для получения какого-л. практического результата)Syn:See:2) пат. изобретение (новое техническое решение задачи, поднимающее существующий уровень техники)See: -
17 product
сущ.1)а) эк. продукт, изделие, товар (предмет, созданный человеком, машиной или природой; чаще всего имеются в виду предметы, созданные с целью продажи); мн. продукцияfood products — продукты, продовольственные товары
high-quality product — товар высокого качества, высококачественный [первоклассный\] товар
premium quality [premium grade\] product — товар высшего сорта [качества\], товар класса премиум-класса
undiscounted products — товары, продаваемые без скидки
fairly-priced product — товар по приемлемой [справедливой\] цене
See:acceptable product, accessory product, actual product, adulterated product, advanced technology products, ageing product, agricultural product, alimentary products, allied products, all-meat product, alternative products, ancillary product, anonymous product, augmented product, bakery products 1), basic product, beauty product, best-selling product, business products, by-product 1), &3, capitalized product, captive product, characteristic product, 2), co-product, commercialized product, commodity product, common product, comparable products, competing products, competiting products, competitive product, competitive products, complementary products, complete product, complicated product, conforming product, consumer products, consumer durable product, convenience products, core product, crop products, custom-designed product, customized product, custom-made product, declining product, deficient product, dehydrated product, differentiated product, diminishing marginal product, disposable product, diversified products, DIY product, do-it-yourself product, domestic product, durable products, egg product, electronics products, end product 2), &3, energy-saving product, entrenched product, essential product, established product, ethical product, ethnic product, everyday product, exclusive product, export products, fair trade product, fairly traded product, fairtrade product, fighting product, final product 1), а&2, financial product, food products, foreign products, formal product, functional product, generic product, global product, green products, grooming product, hair-care product, half-finished product, harmful product, health product, hedonic product, heterogeneous product, high performance product, high quality product, high-interest product 1), high-involvement products, high-margin product, high-reliability product, high-risk product, high-tech product, high-turnover product, high-value product, home-grown product, home-produced product, homogeneous product, hot product, household cleaning product, household maintenance products, household product, hygiene product, imitative product, imperfect product, import products, import-sensitive products, impulse product, industrial product, inferior product, information product, innovative product, in-process product, intangible product, interlocking products, intermediate product, investigated product, joint product, key product, knowledge-intensive product, known product, laundry products, lead product, leading edge product, leisure products, leisure-time products, licensed product, line extension product, livestock product, low-interest product 1), low-involvement products, low-value product, luxury product, main product 2), &3, manufactured products, marginal physical product, marginal product, mature product, me-too product, metal product, misbranded product, multinational product, multiple-use product 2), mundane product, national product, necessary product, necessity product, new product, no-name product, nonconforming product, non-conforming product, non-durable products, nonfood products, non-standard product, novel product, office products, off-price product, off-standard product, oil products, one-shot product, optional product, over-engineered product, paper products, parity products, patentable product, patented product, patent-protected product, payment product, pension product, pharmaceutical product, physical product, plant products, potential product, premium product, prestige products, price-sensitive product, primary products, prime product, printed products, private brand products, private label products, processed product, qualified product, quality products, ready-made product, rejected product, related product, replacement product, representative product, retirement product, revenue product, revised product, safe product, saleable product, salutary product, satisfactory product, scarce product, second generation product, secondary product, semi-finished products, shoddy product, sideline product, single-use product, skill-intensive product, slow-moving product, social product, sophisticated product, standardized products, sugared product, superior product, supplementary products, surplus product, synthetic product, tainted products, tangible product, tied product, tied products, tinned products, tobacco products 1), tying products, unacceptable product, unbranded product, unidentified product, unpatented product, unsafe product, unsaleable product, unsatisfactory product, utilitarian product, vendible product, viable product, wanted product, well-designed product, worthwhile product, product acceptability, product acceptance, product adaptability, product adaptation, product addition, product advertising, product analysis, product announcement, product application, product area, product arsenal, product assessment, product association, product assortment, product assurance, product augmentation, product availability, product awareness, product benefit, product billing, product brand, product branding, product bundling, product capabilities, product category, product choice, product claim, product class, product classification, product company, product compatibility, product competition, product comprehension, product concept, product conception, product control, product copy, product cost, product costing, product coverage, product cycle, product decision, product deletion, product demand, product demonstration, product departmentalization, product design, product development, product differences, product differentiation, product display, product distribution network, product diversification, product division, product element, product elimination, product engineering, product enhancement, product evaluation, product evolution, product exchange, product exhaustion, product expansion, product extension, product failure, product family, product field, product flows, product form, product graduation, product group, product homogeneity, product idea, product image, product improvement, product inflation, product innovation, product inspection, product integrity, product introduction, product invention, product item, product knowledge, product label, product labelling, product layout, product leveraging, product liability, product life, product life cycle, product line, product lineup, product literature, product management, product manager, product manual, product market, product marketing, product matching, product message, product mix, product modification, product name, product nameplate, product offering, product opportunity, product organization, product orientation, product origin, product patent, product perception, product performance, product personality, product placement, product plan, product planner, product planning, product policy, product portfolio, product position, product positioning, product preference, product presentation, product price, product pricing, product profile, product proliferation, product promotion, product proof, product protection, product publicity, product puffery, product quality, product quantity, product range, product rationalization, product recall, product release, product requirements, product research, product research and development, product retailer, product revision, product revolution, product safety, product sales, product sample, product sampling, product satisfaction, product segment, product segmentation, product shortage, product specialization, product specifications, product standard, product statement, product strategy, product structure, product style, product styling, product subline, product superiority, product survey, product tangibility, product team, product technology, product test, product testimony, product testing, product trial, product type, product uniformity, product usage, product validation, product variation, product variety, product warranty, endorse a product, Central Product Classification, Certificate of Pharmaceutical Product, Chemical and Allied Products Merchant Wholesalers, Clay Product and Refractory Manufacturing, debt-for-products swapб) эк. продукт, объем продукции ( количество произведенных товаров или услуг)company's product — продукция компании, товары компании
See:2) общ. результат, продукт (итог какой-л. деятельности)History is the product of social and economic forces. — История — это результат взаимодействия общественных и экономических факторов.
the product of this activity is radiation — в результате этой деятельности появляется радиация.
See:3) мат. произведение ( результат умножения двух чисел)
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продукт, товар: что-либо производимое для продажи.* * ** * *. . Словарь экономических терминов .* * * -
18 Clerke, Sir Clement
SUBJECT AREA: Metallurgy[br]d. 1693[br]English entrepreneur responsible, with others, for attempts to introduce coal-fired smelting of lead and, later, of copper.[br]Clerke, from Launde Abbey in Leicestershire, was involved in early experiments to smelt lead using coal fuel, which was believed to have been located on the Leicestershire-Derbyshire border. Concurrently, Lord Grandison was financing experiments at Bristol for similar purposes, causing the downfall of an earlier unsuccessful patented method before securing his own patent in 1678. In that same year Clerke took over management of the Bristol works, claiming the ability to secure financial return from Grandison's methods. Financial success proved elusive, although the technical problems of adapting the reverberatory furnace to coal fuel appear to have been solved when Clerke was found to have established another lead works nearby on his own account. He was forced to cease work on lead in 1684 in respect of Grandison's patent rights. Clerke then turned to investigations into the coal-fired smelting of other metals and started to smelt copper in coal-fired reverberatory furnaces. By 1688–9 small supplied of merchantable copper were offered for sale in London in order to pay his workers, possibly because of further financial troubles. The practical success of his smelting innovation is widely acknowledged to have been the responsibility of John Coster and, to a smaller extent, Gabriel Wayne, both of whom left Clerke and set up separate works elsewhere. Clerke's son Talbot took over administration of his father's works, which declined still further and closed c. 1693, at about the time of Sir Clement's death. Both Coster and Wayne continued to develop smelting techniques, establishing a new British industry in the smelting of copper with coal.[br]Principal Honours and DistinctionsCreated baronet 1661.Further ReadingRhys Jenkins, 1934, "The reverberatory furnace with coal fuel", Transactions of the Newcomen Society 34:67–81.—1943–4, "Copper smelting in England: Revival at the end of the seventeenth century", Transactions of the Newcomen Society 24:78–80.J.Morton, 1985, The Rise of the Modern Copper and Brass Industry: 1690 to 1750, unpublished PhD thesis, University of Birmingham, 87–106.JD -
19 Koepe, Friedrich
SUBJECT AREA: Mining and extraction technology[br]b. 1 July 1835 Bergkamen, Westphalia, Germanyd. 12 September 1922 Bochum, Germany[br]German mining engineer, inventor of the friction winder for shaft hoisting.[br]After attending the School of Mines at Bochum, from 1862 he worked as an overseer in the coal-mining district of Ibbenbüren until he joined a mining company in the Ruhr area. There, as head of the machine shop, he was mainly concerned with sinking new shafts. In 1873 he became the Technical Director of the Hannover mine, near Bochum, which belonged to Krupp. When the shaft hoisting was to be extended to a lower level Koepe conceived the idea of applying a friction winder to the hoist instead of a drum, in order to save weight and costs. His method involved the use of an endless rope to which the cages were fixed without a safety catch. The rope passed over pulleys instead of coiling and uncoiling on a drum, and he consequently proposed to have the motor erected on top of the shaft rather than beside it, as had been the practice until then.Koepe's innovation turned out to be highly effective for hoisting heavy loads from deep shafts and was still popular in many countries in the 1990s, although the Krupp company did not accept it for a long time. He had severe personal problems with the company, and as Krupp refused to have his system patented he had to take it out in his own name in 1877. However, Krupp did not pay for the extension of the patent, nor did they pass the dossiers over to him, so the patent expired two years later. It was not until 1888 that a hoisting engine equipped with a friction winder was erected for the first time in a head gear, above the new Hannover II shaft. The following year Koepe left the Krupp company and settled as a freelance consulting engineer in Bochum; he was successful in having his system introduced by other mining companies. Ironi-cally, in 1948 the world's first four-rope winding, based on his system, was installed at the Hannover mine.[br]Further ReadingFor detailed biographical information and an assessment of his technological achievements see: H.Arnold and W.Kroker, 1977, "100 Jahre Schachtförderung nach dem System Koepe", Der Anschnitt 29:235–42.F.Lange, 1952, Die Vierseilförderung, Essen.WK -
20 McCoy, Elijah
SUBJECT AREA: Steam and internal combustion engines[br]b. 1843 Colchester, Ontario, Canadad. 1929 Detroit, Michigan (?), USA[br]African-American inventor of steam-engine lubricators.[br]McCoy was born into a community of escaped African-American slaves. As a youth he went to Scotland and served an apprenticeship in Edinburgh in mechanical engineering. He returned to North America and ended up in Ypsilanti, Michigan, seeking employment at the headquarters of the Michigan Central Railroad Company. In spite of his training, the only job McCoy could obtain was that of locomotive fireman. Still, that enabled him to study at close quarters the problem of lubricating adequately the moving parts of a steam locomotive. Inefficient lubrication led to overheating, delays and even damage. In 1872 McCoy patented the first of his lubricating devices, applicable particularly to stationary engines. He assigned his patent rights to W. and S.C.Hamlin of Ypsilanti, from which he derived enough financial resources to develop his invention. A year later he patented an improved hydrostatic lubricator, which could be used for both stationary and locomotive engines, and went on to make further improvements. McCoy's lubricators were widely taken up by other railroads and his employers promoted him from the footplate to the task of giving instruction in the use of his lubricating equipment. Many others had been attempting to achieve the same result and many rival products were on the market, but none was superior to McCoy's, which came to be known as "the Real McCoy", a term that has since acquired a wider application than to engine lubricators. McCoy moved to Detroit, Michigan, as a patent consultant in the railroad business. Altogether, he took out over fifty patents for various inventions, so that he became one of the most prolific of nineteenth-century black inventors, whose activities had been so greatly stimulated by the freedoms they acquired after the American Civil War. His more valuable patents were assigned to investors, who formed the Elijah McCoy Manufacturing Company. McCoy himself, however, was not a major shareholder, so he seems not to have derived the benefit that was due to him.[br]Further ReadingP.P.James, 1989, The Real McCoy: African-American Invention and Innovation 1619– 1930, Washington: Smithsonian Institution, pp. 73–5.LRD
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