Engineer R&D laboratory

Engineer R&D laboratory

Военный термин: НИИ НИОКР в области инженерного обеспечения (СВ), лаборатория НИОКР в области инженерного обеспечения (СВ)

Engineer R&D laboratory

лаборатория [НИИ] НИОКР в области инженерного обеспечения (СВ)

laboratory

( научно-исследовательская) лаборатория; научно-исследовательский институт, НИИ

C3 laboratory — лаборатория разработки систем оперативного управления и связи

— advanced concepts laboratory

— Air Force Weapons laboratory

— armaments laboratory

— Army Aeromedical Research laboratory

— Army Aeronautical Research laboratory

— Army Air Mobility R&D laboratory

— Army Ballistics Research laboratory

— Army Biochemical laboratory

— Army Biological R&D laboratory

— Army Chemical Systems laboratory

— Army Construction Engineering Research laboratory

— Army Engineer Topographic laboratoryies

— Army Fuel and Lubricants Research laboratory

— Army Medical Research and Nutrition laboratory

— Army Night Vision laboratory

— Army Special Weapons laboratory

— Army Tropical Research laboratory

— Atmospheric Sciences laboratory

— Avionics Development laboratory

— Bacteriological Warfare laboratory

— Ballistic Wound laboratory

— Behavioral Scientific Research laboratory

— Chemical &Radiological R&D laboratory

— chemical field laboratory

— Cold Regions Research and Engineering laboratory

— Combat Surveillance and Target Acquisition laboratory

— Concepts laboratory

— Criminal Investigation laboratory

— Electronics R&D laboratory

— Engineer R&D laboratory

— EW laboratory

— field laboratory

— Fire Control and Small Caliber Weapons Systems laboratory

— general medical service laboratory

— Geophysical laboratory

— Human Engineering laboratory

— Human Factors Operation Research laboratory

— Jungle laboratory

— Land Warfare laboratory

— Large Caliber Weapon Systems laboratory

— Limited War laboratory

— major thrust lead laboratory

— Medical Bioengineering R&D laboratory

— medical general laboratory

— military orbital laboratory

— mobile fuel testing laboratory

— Naval Weapons laboratory

— Nuclear Defense laboratory

— Ordnance Investigation laboratory

— ordnance laboratory

— Organizations and Systems Research laboratory

— Personnel and Training Research laboratory

— Radiological Defense laboratory

— Rocket Propulsion laboratory

— Signal Corps Engineering laboratory

— Signals Warfare laboratory

— Tactical Imagery Processing laboratory

— Tank Automotive Systems laboratory

— USAF Epidemiological laboratory

— USN Mine Defense laboratory

— weapons effects laboratory

— weapons laboratory

laboratory engineer

Контроль качества: инженер-экспериментатор в лаборатории

laboratory engineer

• laboratorioinsinööri

laboratory engineer

инженер-лаборант

laboratory engineer

инженер-экспериментатор

in a laboratory acceptable to the Engineer

Строительство: в утверждённой Инженером лаборатории

test laboratory engineer

Контроль качества: инженер испытательной лаборатории

test laboratory engineer

n інженер випробної лабораторії

test laboratory engineer

инженер испытательной лаборатории

ETL

1) Компьютерная техника: Извлечение, преобразование и загрузка (Extract, transform, load - основные этапы переноса информации из одного приложения в другое.)

2) Медицина: echo train length

3) Военный термин: Engineer Topographic Laboratories, electronic technology laboratory, emergency time limit, engineering test laboratory

4) Техника: environmental team leader, extraction, transmission, loading

5) Железнодорожный термин: Essex Terminal Railway Company

6) Телекоммуникации: European Testing Laboratory

7) Сокращение: Engineer Topographic Laboratories (US Army), Endorsed Tools List, Electrical Testing Laboratories (Компания, основанная в 1896 г. Томасом Эдисоном, которая является старейшей в мире лабораторией, занимающейся испытанием оборудования на безопасность.)

8) Вычислительная техника: emitter transistor logic, extract, transfer, load

9) Фирменный знак: Edison Testing Laboratories

10) Экология: environmental test laboratory

11) Сетевые технологии: Electrical Testing Labs, Extraction Transformation And Loading, extract-transform-load

12) Океанография: Environmental Technology Laboratory

13) Химическое оружие: engineer technical letter

14) Электротехника: electrotechnical laboratory, Лаборатории тестирования электроприборов ( США)

Kompfner, Rudolph

SUBJECT AREA: Broadcasting, Electronics and information technology, Telecommunications

[br]

b. 16 May 1909 Vienna, Austria

d. 3 December 1977 Stanford, California, USA

[br]

Austrian (naturalized English in 1949, American in 1957) electrical engineer primarily known for his invention of the travelling-wave tube.

[br]

Kompfner obtained a degree in engineering from the Vienna Technische Hochschule in 1931 and qualified as a Diplom-Ingenieur in Architecture two years later. The following year, with a worsening political situation in Austria, he moved to England and became an architectural apprentice. In 1936 he became Managing Director of a building firm owned by a relative, but at the same time he was avidly studying physics and electronics. His first patent, for a television pick-up device, was filed in 1935 and granted in 1937, but was not in fact taken up. In June 1940 he was interned on the Isle of Man, but as a result of a paper previously sent by him to the Editor of Wireless Engineer he was released the following December and sent to join the group at Birmingham University working on centimetric radar. There he worked on klystrons, with little success, but as a result of the experience gained he eventually invented the travelling-wave tube (TWT), which was based on a helical transmission line. After disbandment of the Birmingham team, in 1946 Kompfner moved to the Clarendon Laboratory at Oxford and in 1947 he became a British subject. At the Clarendon Laboratory he met J.R. Pierce of Bell Laboratories, who worked out the theory of operation of the TWT. After gaining his DPhil at Oxford in 1951, Kompfner accepted a post as Principal Scientific Officer at Signals Electronic Research Laboratories, Baldock, but very soon after that he was invited by Pierce to work at Bell on microwave tubes. There, in 1952, he invented the backward-wave oscillator (BWO). He was appointed Director of Electronics Research in 1955 and Director of Communications Research in 1962, having become a US citizen in 1957. In 1958, with Pierce, he designed Echo 1, the first (passive) satellite, which was launched in August 1960. He was also involved with the development of Telstar, the first active communications satellite, which was launched in 1962. Following his retirement from Bell in 1973, he continued to pursue research, alternately at Stanford, California, and Oxford, England.

[br]

Principal Honours and Distinctions

Physical Society Duddell Medal 1955. Franklin Institute Stuart Ballantine Medal 1960. Institute of Electrical and Electronics Engineers David Sarnoff Award 1960. Member of the National Academy of Engineering 1966. Member of the National Academy of Science 1968. Institute of Electrical and Electronics Engineers Medal of Honour 1973. City of Philadelphia John Scott Award 1974. Roentgen Society Silvanus Thompson Medal 1974. President's National medal of Science 1974. Honorary doctorates Vienna 1965, Oxford 1969.

Bibliography

1944, "Velocity modulated beams", Wireless Engineer 17:262.

1942, "Transit time phenomena in electronic tubes", Wireless Engineer 19:3. 1942, "Velocity modulating grids", Wireless Engineer 19:158.

1946, "The travelling-wave tube", Wireless Engineer 42:369.

1964, The Invention of the TWT, San Francisco: San Francisco Press.

Further Reading

J.R.Pierce, 1992, "History of the microwave tube art", Proceedings of the Institute of Radio Engineers: 980.

KF

company

рота; экипаж ( корабля), команда; компания, фирма; жарг. ЦРУ; см. тж. unit

armored (personnel) carrier company — рота БТР

bulk petrol (transport) company — Бр. рота подвоза наливного (бестарного) горючего

Commando (oil gas extraction area) company — рота охраны и защиты (нефтегазовых промыслов), рота «команчо»

engineer pipeline (transport) company — инженерная рота прокладки трубопроводов

field company, RE — Бр. саперная рота

field survey company, RE — Бр. полевая топографическая рота инженерных войск

forward (support) maintenance company — передовая рота технического обслуживания (и ремонта)

HQ and service(s) company — рота штабная и обслуживания

HQ company, US Army — штабная рота штаба СВ США

light (gun) tank company — рота легких танков

long-range (reconnaissance) patrol company — рота дальней [глубинной] разведки

medium (lift) helicopter company — рота средних (транспортных) вертолетов

ordnance forward (support) company — передовая артиллерийско-техническая рота

signal support (operations) company — рота обеспечения имуществом связи

special ammunition company (general support) — рота специальных боеприпасов (общей поддержки)

special boat company, Royal Marines — Бр. особая [отдельная] рота десантных катеров МП

— administrative services company

— advanced guard company

— advisory and support company

— aerial ambulance company

— aerial photoreproduction company

— aerial weapons company

— aggressor company

— AG's company

— air ambulance company

— air and naval gunfire liaison company

— air cavalry company

— air equipment support company

— air photoreproduction and delivery company

— airborne infantry company

— airborne medical company

— airborne QM company

— airborne Rangers company

— air-delivery company

— air-dispatch company

— airhead ordnance company

— air-mission company light

— ambulance car company

— ammunition depot operations company

— amphibian equipment company

— amphibious company

— amphibious general transport company

— amphibious support company

— amphibious truck company

— antiarmor company

— armament and equipment maintenance company

— armored company

— armored infantry company

— armored vehicle launched bridge company

— armoured engineer company

— army aviation company

— artillery mortar company

— artisan works company

— ASA company

— assault helicopter company

— assault signal company

— assault support helicopter company

— AT company

— AT helicopter company

— atomic demolition company

— atomic demolition munitions company

— attack company

— attack helicopter company

— aviation company

— aviation equipment light repair company

— aviation equipment medium repair company

— aviation equipment repair company

— aviation general support company

— aviation intermediate maintenance company

— aviation maintenance company

— aviation support company

— bakery company

— base logistics support company

— basic trainee company

— basic training company

— battlefield recovery company

— boat maintenance company

— bridge company

— bridge maintenance company

— cable telegraph company

— camouflage company

— can company

— carrier company

— ceremonial company

— chemical combat support company

— chemical company

— chemical decontamination company

— chemical depot company

— chemical laboratory company

— chemical mortar company

— chemical processing company

— clearing company

— clothing impregnation company

— collecting and clearing company

— collecting company

— combat aviation company

— combat company

— combat EW & intelligence company

— combat helicopter company

— combat intelligence company

— combat service support company

— combat support aviation company

— combat support company

— combat support engineer company

— command aviation company

— command communications company

— command company

— command operations company

— commandos company

— commodity company

— communications company

— communications countermeasures company

— company of Pikemen and Musketeers

— conditioning company

— consolidation company

— construction company

— convalescent company

— counterintelligence company

— decontamination company

— deep reconnaissance company

— dental company

— depot company

— direct support engineer company

— direct support ordnance company

— division intermediate maintenance company

— emergency repair company

— employment company

— engineer airborne light equipment company

— engineer amphibious assault company

— engineer amphibious company

— engineer assault bridge company

— engineer aviation camouflage company

— engineer aviation company

— engineer base map depot company

— engineer base photomapping company

— engineer base reproduction company

— engineer base survey company

— engineer camouflage company

— engineer combat company

— engineer company

— engineer construction support company

— engineer depot company

— engineer depot maintenance company

— engineer dump truck company

— engineer field maintenance company

— engineer float bridge company

— engineer heavy equipment company

— engineer heavy shop company

— engineer land clearing company

— engineer light equipment company

— engineer maintenance company

— engineer map reproduction and distribution company

— engineer panel bridge company

— engineer parts supply company

— engineer petroleum distribution company

— engineer photomapping company

— engineer pipeline equipment company

— engineer ponton bridge company

— engineer port construction company

— engineer shore company

— engineer supply point company

— engineer support company

— engineer topographic company

— engineer treadway bridging company

— engineer water supply company

— engineer-aviation maintenance company

— equipment assembly company

— equipment collection and classification company

— equipment maintenance and repair company

— escort guard company

— escort helicopter company

— evacuation ambulance company

— EW suppression company

— explosive ordnance disposal company

— far shore company

— field operations company

— field service company

— fire support company

— fire support helicopter company

— fixed bridge company

— fixed-wing surveillance company

— fixed-wing tactical transport company

— float bridge company

— floating mobile bridge company

— forward communications company

— forward logistics support company

— forward medical company

— forward support company

— gas company

— gas supply company

— gasoline supply company

— general stores company

— general supply company

— general transport company

— ground surveillance company

— guards independent parachute company

— Gurkhas demonstration company

— heavy automotive maintenance company

— heavy equipment company

— heavy equipment maintenance company

— heavy equipment transporter company

— heavy maintenance company

— heavy mortar company

— heavy tank company

— heavy weapons company

— heavy-lift helicopter company

— helicopter company

— helicopter evacuation company

— helicopter transport company

— Honourable Artillery company

— hospital company

— howitzer company

— HQ and band company

— HQ and MP company

— HQ company

— independent in'antry company

— infantry company

— junior parachute company

— junior soldier's company

— labor company

— labor management company

— labor supervision company

— landing support company

— lifting company

— light aircraft maintenance company

— light cargo helicopter company

— light equipment company

— light equipment maintenance company

— light helicopter company

— light observation helicopter company

— light support company

— light transport helicopter company

— light truck company

— line company

— linguist company

— loudspeaker leaflet company

— machinegun company

— main support company

— maintenance company

— maneuver company

— materiel management company

— mechanical flame chemical company

— mechanical repair company

— mechanical transport company

— mechanized infantry company

— mechanized rifle company

— medical air holding company

— medical ambulance company

— medical clearing company

— medical collecting company

— medical company

— medical depot company

— medical holding company

— medical supply company

— medium boat company

— medium maintenance company

— medium tank company

— medium transport helicopter company

— medium truck company

— meteorological company

— military intelligence company

— military training company

— missile maintenance company

— missile support company

— mobile armor protected gun company

— mobile floating assault bridge company

— mobile shop company

— motor maintenance company

— motor repair company

— motor transport company

— motorized rifle company

— movement control company

— MP company

— MP guard company

— MP PW processing company

— NBC defense company

— near-shore company

— observation helicopter company

— operating company

— ordnance ammunition company

— ordnance armament and fire control rebuild company

— ordnance automotive heavy maintenance company

— ordnance automotive medium maintenance company

— ordnance aviation company

— ordnance classification company

— ordnance collecting point company

— ordnance company

— ordnance depot company

— ordnance depot maintenance company

— ordnance depot supply company

— ordnance evacuation company

— ordnance field supply company

— ordnance guided missile maintenance company

— ordnance heavy automotive maintenance company

— ordnance heavy maintenance company

— ordnance maintenance company

— ordnance medium maintenance company

— ordnance park company

— ordnance recovery and classification company

— ordnance service company

— ordnance tank maintenance company

— ordnance truck maintenance company

— outpost company

— parachute company

— parachute heavy drop company

— personnel carrier company

— personnel services company

— petroleum distributing company

— petroleum supply company

— photo-interpretation company

— pioneer company

— pipeline and fuel depot service company

— ponton bridge company

— provost company

— psychological defense company

— QM company

— radio broadcasting company

— radio communications company

— radio intelligence company

— radiorelay and wire signal company

— Rangers company

— reclassification and reclamation company

— reconnaissance company

— reconnaissance helicopter company

— recovery company

— reinforcement company

— replacement regulating company

— replenishment park company

— returned stores company

— rifle company

— road-building company

— road-construction company

— sapper company

— separate reinforced company

— service company

— ship's company

— shore party company

— short-leave company

— single-weapon company

— smoke generator company

— special air service separate company

— special forces company

— staging area company

— stock control company

— stores convoy company

— student officer company

— supply and service company

— supply company

— support and service company

— support command communications company

— support company

— surveillance aviation company

— tactical satellite communications company

— tank company

— tank salvage company

— technical intelligence company

— terminal transfer company

— traffic control company

— training company

— transportation aircraft maintenance company

— transportation company

— transportation motor transport company

— transportation terminal service company

— troop truck company

— tropospheric communications company

— variable time fuze countermeasures company

— vehicle company

— Veteran company

— water tank company

— wire company

— wireless company

Kennedy, Sir Alexander Blackie William

SUBJECT AREA: Ports and shipping

[br]

b. 17 March 1847 Stepney, London, England d. 1928

[br]

English marine engineer and educator.

[br]

Sir Alexander Kennedy was trained as a marine engineer. The son of a Congregational minister, he was educated at the City of London School and the School of Mines, Jermyn Street. He was then apprenticed to J. \& W.Dudgeon of Millwall, marine engineers, and went on to become a draughtsman to Sir Charles Marsh Palmer of Jarrow (with whom he took part in the development of the compound steam-engine for marine use) and T.M.Tennant \& Co. of Leith. In 1874 he was appointed Professor of Engineering at University College, London. He built up an influential School of Engineering, being the first in England to integrate laboratory work as a regular feature of instruction. The engineering laboratory that he established in 1878 has been described as "the first of its kind in England" (Proceedings of the Institution of Civil Engineers). He and his students conducted important experiments on the strength and elasticity of materials, boiler testing and related subjects. He followed the teaching of Franz Reuleaux, whose Kinematics of Machinery he translated from the German.

While thus breaking new educational ground at University College, Kennedy concurrently established a very thriving private practice as a consulting engineer in partnership with Bernard Maxwell Jenkin (the son of Fleeming Jenkin), to pursue which he relinquished his academic posts in 1889. He planned and installed the whole electricity system for the Westminster Electric Supply Corporation, and other electricity companies. He was also heavily involved in the development of electrically powered transport systems. During the First World War he served on a panel of the Munitions Invention Department, and after the war he undertook to record photographically the scenes of desolation in his book From Ypres to Verdun (1921). Towards the end of his life, he pursued his interest in archaeology with the exploration of Petra, recorded in a monograph: Petra. Its History and Monuments (1925). He also joined the Institution of Mechanical Engineers in 1879, becoming the President of that body in 1894, and he joined the Institution of Electrical Engineers in 1890. Kennedy was thus something of an engineering polymath, as well as being an outstanding engineering educationalist.

[br]

Principal Honours and Distinctions

FRS 1887. Knighted 1905. Member, Institution of Civil Engineers 1879; President, 1906. President, Institution of Mechanical Engineers 1894.

Bibliography

1921, From Ypresto Verdum.

1925, Petra. Its History and Monuments.

Further Reading

DNB supplement.

1928–9, Proceedings of the Institution of Civil Engineers 221:269–75.

AB

Poulsen, Valdemar

SUBJECT AREA: Broadcasting, Electronics and information technology, Recording, Telecommunications

[br]

b. 23 November 1869 Copenhagen, Denmark

d. 23 July 1942 Gentofte, Denmark

[br]

Danish engineer who developed practical magnetic recording and the arc generator for continuous radio waves.

[br]

From an early age he was absorbed by phenomena of physics to the exclusion of all other subjects, including mathematics. When choosing his subjects for the final three years in Borgedydskolen in Christianshavn (Copenhagen) before university, he opted for languages and history. At the University of Copenhagen he embarked on the study of medicine in 1889, but broke it off and was apprenticed to the machine firm of A/S Frichs Eftf. in Aarhus. He was employed between 1893 and 1899 as a mechanic and assistant in the laboratory of the Copenhagen Telephone Company KTAS. Eventually he advanced to be Head of the line fault department. This suited his desire for experiment and measurement perfectly. After the invention of the telegraphone in 1898, he left the laboratory and with responsible business people he created Aktieselskabet Telegrafonen, Patent Poulsen in order to develop it further, together with Peder Oluf Pedersen (1874– 1941). Pedersen brought with him the mathematical background which eventually led to his professorship in electronic engineering in 1922.

The telegraphone was the basis for multinational industrial endeavours after it was demonstrated at the 1900 World's Exhibition in Paris. It must be said that its strength was also its weakness, because the telegraphone was unique in bringing sound recording and reproduction to the telephone field, but the lack of electronic amplifiers delayed its use outside this and the dictation fields (where headphones could be used) until the 1920s. However, commercial interest was great enough to provoke a number of court cases concerning patent infringement, in which Poulsen frequently figured as a witness.

In 1903–4 Poulsen and Pedersen developed the arc generator for continuous radio waves which was used worldwide for radio transmitters in competition with Marconi's spark-generating system. The inspiration for this work came from the research by William Duddell on the musical arc. Whereas Duddell had proposed the use of the oscillations generated in his electric arc for telegraphy in his 1901 UK patent, Poulsen contributed a chamber of hydrogen and a transverse magnetic field which increased the efficiency remarkably. He filed patent applications on these constructions from 1902 and the first publication in a scientific forum took place at the International Electrical Congress in St Louis, Missouri, in 1904.

In order to use continuous waves efficiently (the high frequency constituted a carrier), Poulsen developed both a modulator for telegraphy and a detector for the carrier wave. The modulator was such that even the more primitive spark-communication receivers could be used. Later Poulsen and Pedersen developed frequency-shift keying.

The Amalgamated Radio-Telegraph Company Ltd was launched in London in 1906, combining the developments of Poulsen and those of De Forest Wireless Telegraph Syndicate. Poulsen contributed his English and American patents. When this company was liquidated in 1908, its assets were taken over by Det Kontinentale Syndikat for Poulsen Radio Telegrafi, A/S in Copenhagen (liquidated 1930–1). Some of the patents had been sold to C.Lorenz AG in Berlin, which was very active.

The arc transmitting system was in use worldwide from about 1910 to 1925, and the power increased from 12 kW to 1,000 kW. In 1921 an exceptional transmitter rated at 1,800 kW was erected on Java for communications with the Netherlands. More than one thousand installations had been in use worldwide. The competing systems were initially spark transmitters (Marconi) and later rotary converters ( Westinghouse). Similar power was available from valve transmitters only much later.

From c. 1912 Poulsen did not contribute actively to further development. He led a life as a well-respected engineer and scientist and served on several committees. He had his private laboratory and made experiments in the composition of matter and certain resonance phenomena; however, nothing was published. It has recently been suggested that Poulsen could not have been unaware of Oberlin Smith's work and publication in 1888, but his extreme honesty in technical matters indicates that his development was indeed independent. In the case of the arc generator, Poulsen was always extremely frank about the inspiration he gained from earlier developers' work.

[br]

Bibliography

1899, British patent no. 8,961 (the first British telegraphone patent). 1903, British patent no. 15,599 (the first British arc-genera tor patent).

His scientific publications are few, but fundamental accounts of his contribution are: 1900, "Das Telegraphon", Ann. d. Physik 3:754–60; 1904, "System for producing continuous oscillations", Trans. Int. El. Congr. St. Louis, Vol. II, pp. 963–71.

Further Reading

A.Larsen, 1950, Telegrafonen og den Traadløse, Ingeniørvidenskabelige Skrifter no. 2, Copenhagen (provides a very complete, although somewhat confusing, account of Poulsen's contributions; a list of his patents is given on pp. 285–93).

F.K.Engel, 1990, Documents on the Invention of Magnetic Re cor ding in 1878, New York: Audio Engineering Society, reprint no. 2,914 (G2) (it is here that doubt is expressed about whether Poulsen's ideas were developed independently).

GB-N

Williams, Sir Frederic Calland

SUBJECT AREA: Electronics and information technology

[br]

b. 26 June 1911 Stockport, Cheshire, England

d. 11 August 1977 Prestbury, Cheshire, England

[br]

English electrical engineer who invented the Williams storage cathode ray tube, which was extensively used worldwide as a data memory in the first digital computers.

[br]

Following education at Stockport Grammar School, Williams entered Manchester University in 1929, gaining his BSc in 1932 and MSc in 1933. After a short time as a college apprentice with Metropolitan Vickers, he went to Magdalen College, Oxford, to study for a DPhil, which he was awarded in 1936. He returned to Manchester University that year as an assistant lecturer, gaining his DSc in 1939. Following the outbreak of the Second World War he worked for the Scientific Civil Service, initially at the Bawdsey Research Station and then at the Telecommunications Research Establishment at Malvern, Worcestershire. There he was involved in research on non-incandescent amplifiers and diode rectifiers and the development of the first practical radar system capable of identifying friendly aircraft. Later in the war, he devised an automatic radar system suitable for use by fighter aircraft.

After the war he resumed his academic career at Manchester, becoming Professor of Electrical Engineering and Director of the University Electrotechnical Laboratory in 1946. In the same year he succeeded in developing a data-memory device based on the cathode ray tube, in which the information was stored and read by electron-beam scanning of a charge-retaining target. The Williams storage tube, as it became known, not only found obvious later use as a means of storing single-frame, still television images but proved to be a vital component of the pioneering Manchester University MkI digital computer. Because it enabled both data and program instructions to be stored in the computer, it was soon used worldwide in the development of the early stored-program computers.

[br]

Principal Honours and Distinctions

Knighted 1976. OBE 1945. CBE 1961. FRS 1950. Hon. DSc Durham 1964, Sussex 1971, Wales 1971. First Royal Society of Arts Benjamin Franklin Medal 1957. City of Philadelphia John Scott Award 1960. Royal Society Hughes Medal 1963. Institution of Electrical Engineers Faraday Medal 1972. Institute of Electrical and Electronics Engineers Pioneer Award 1973.

Bibliography

Williams contributed papers to many scientific journals, including Proceedings of the Royal Society, Proceedings of the Cambridge Philosophical Society, Journal of the Institution of Electrical Engineers, Proceedings of the Institution of Mechanical Engineers, Wireless Engineer, Post Office Electrical Engineers' Journal. Note especially: 1948, with J.Kilburn, "Electronic digital computers", Nature 162:487; 1949, with J.Kilburn, "A storage system for use with binary digital computing machines", Proceedings of the Institution of Electrical Engineers 96:81; 1975, "Early computers at Manchester University", Radio \& Electronic Engineer 45:327. Williams also collaborated in the writing of vols 19 and 20 of the MIT Radiation

Laboratory Series.

Further Reading

B.Randell, 1973, The Origins of Digital Computers, Berlin: Springer-Verlag. M.R.Williams, 1985, A History of Computing Technology, London: Prentice-Hall. See also: Stibitz, George R.; Strachey, Christopher.

KF

Rosenhain, Walter

SUBJECT AREA: Metallurgy

[br]

b. 24 August 1875 Berlin, Germany

d. 17 March 1934 Kingston Hill, Surrey, England

[br]

German metallurgist, first Superintendent of the Department of Metallurgy and Metallurgical Chemistry at the National Physical Laboratory, Teddington, Middlesex.

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His family emigrated to Australia when he was 5 years old. He was educated at Wesley College, Melbourne, and attended Queen's College, University of Melbourne, graduating in physics and engineering in 1897. As an 1851 Exhibitioner he then spent three years at St John's College, Cambridge, under Sir Alfred Ewing, where he studied the microstructure of deformed metal crystals and abandoned his original intention of becoming a civil engineer. Rosenhain was the first to observe the slip-bands in metal crystals, and in the Bakerian Lecture delivered jointly by Ewing and Rosenhain to the Royal Society in 1899 it was shown that metals deformed plastically by a mechanism involving shear slip along individual crystal planes. From this conception modern ideas on the plasticity and recrystallization of metals rapidly developed. On leaving Cambridge, Rosenhain joined the Birmingham firm of Chance Brothers, where he worked for six years on optical glass and lighthouse-lens systems. A book, Glass Manufacture, written in 1908, derives from this period, during which he continued his metallurgical researches in the evenings in his home laboratory and published several papers on his work.

In 1906 Rosenhain was appointed Head of the Metallurgical Department of the National Physical Laboratory (NPL), and in 1908 he became the first Superintendent of the new Department of Metallurgy and Metallurgical Chemistry. Many of the techniques he introduced at Teddington were described in his Introduction to Physical Metallurgy, published in 1914. At the outbreak of the First World War, Rosenhain was asked to undertake work in his department on the manufacture of optical glass. This soon made it possible to manufacture optical glass of high quality on an industrial scale in Britain. Much valuable work on refractory materials stemmed from this venture. Rosenhain's early years at the NPL were, however, inseparably linked with his work on light alloys, which between 1912 and the end of the war involved virtually all of the metallurgical staff of the laboratory. The most important end product was the well-known "Y" Alloy (4% copper, 2% nickel and 1.5% magnesium) extensively used for the pistons and cylinder heads of aircraft engines. It was the prototype of the RR series of alloys jointly developed by Rolls Royce and High Duty Alloys. An improved zinc-based die-casting alloy devised by Rosenhain was also used during the war on a large scale for the production of shell fuses.

After the First World War, much attention was devoted to beryllium, which because of its strength, lightness, and stiffness would, it was hoped, become the airframe material of the future. It remained, however, too brittle for practical use. Other investigations dealt with impurities in copper, gases in aluminium alloys, dental alloys, and the constitution of alloys. During this period, Rosenhain's laboratory became internationally known as a centre of excellence for the determination of accurate equilibrium diagrams.

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Principal Honours and Distinctions

FRS 1913. President, Institute of Metals 1828–30. Iron and Steel Institute Bessemer Medal, Carnegie Medal.

Bibliography

1908, Glass Manufacture.

1914, An Introduction to the Study of Physical Metallurgy, London: Constable. Rosenhain published over 100 research papers.

Further Reading

J.L.Haughton, 1934, "The work of Walter Rosenhain", Journal of the Institute of Metals 55(2):17–32.

ASD

Alden, George I.

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering

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b. 22 April 1843 Templeton, Massachusetts, USA

d. 13 September 1926 Princeton, Massachusetts, USA

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American mechanical engineer and professor of engineering.

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From 1868 to 1896 George Alden was head of the steam and mechanical engineering departments at the Worcester Polytechnic Institute, Worcester, Massachusetts. He made a donation in 1910 to establish a hydraulic laboratory at the Institute, and later a further donation for an extension of the laboratory which was completed in 1925. He was Chairman of the Board of Norton (Abrasives) Company and made a significant contribution to the theory of grinding in his paper in 1914 to the American Society of Mechanical Engineers. He was a member of that society from 1880, the year of its foundation, and took an active part in its proceedings.

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Principal Honours and Distinctions

Vice-President, American Society of Mechanical Engineers 1891–3.

Bibliography

1914, "Operation of grinding wheels in machine grinding", Transactions of the American Society of Mechanical Engineers 36:451–60.

Further Reading

For a description of the Alden Hydraulic Laboratory, see Mechanical Engineering, June 1926: 634–5.

RTS

Ayrton, William Edward

SUBJECT AREA: Electricity, Telecommunications

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b. 14 September 1847 London, England

d. 8 November 1908 London, England

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English physicist, inventor and pioneer in technical education.

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After graduating from University College, London, Ayrton became for a short time a pupil of Sir William Thomson in Glasgow. For five years he was employed in the Indian Telegraph Service, eventually as Superintendent, where he assisted in revolutionizing the system, devising methods of fault detection and elimination. In 1873 he was invited by the Japanese Government to assist as Professor of Physics and Telegraphy in founding the Imperial College of Engineering in Tokyo. There he created a teaching laboratory that served as a model for those he was later to organize in England and which were copied elsewhere. It was in Tokyo that his joint researches with Professor John Perry began, an association that continued after their return to England. In 1879 he became Professor of Technical Physics at the City and Guilds Institute in Finsbury, London, and later was appointed Professor of Physics at the Central Institution in South Kensington.

The inventions of Avrton and Perrv included an electric tricycle in 1882, the first practicable portable ammeter and other electrical measuring instruments. By 1890, when the research partnership ended, they had published nearly seventy papers in their joint names, the emphasis being on a mathematical treatment of subjects including electric motor design, construction of electrical measuring instruments, thermodynamics and the economical use of electric conductors. Ayrton was then employed as a consulting engineer by government departments and acted as an expert witness in many important patent cases.

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Principal Honours and Distinctions

FRS 1881. President, Physical Society 1890–2. President, Institution of Electrical Engineers 1892. Royal Society Royal Medal 1901.

Bibliography

28 April 1883, British patent no. 2,156 (Ayrton and Perry's ammeter and voltmeter). 1887, Practical Electricity, London (based on his early laboratory courses; 7 edns followed during his lifetime).

1892, "Electrotechnics", Journal of the Institution of Electrical Engineers 21, 5–36 (for a survey of technical education).

Further Reading

D.W.Jordan, 1985, "The cry for useless knowledge: education for a new Victorian technology", Proceedings of the Institution of Electrical Engineers, 132 (Part A): 587– 601.

G.Gooday, 1991, History of Technology, 13: 73–111 (for an account of Ayrton and the teaching laboratory).

GW