Institution of Incorporated Engineers

Institution of Incorporated Engineers

General subject: IIE

IIE

1) Общая лексика: Institution of Incorporated Engineers

2) Американизм: Integrated Information Environment

3) Военный термин: Installation Identification Element

4) Техника: Instituto de Investigaciones Electricas

5) Оптика: Institute of Industrial Engineers

6) Сокращение: Institute for International Economics

7) Нефть: institute of international education

Siemens, Sir Charles William

SUBJECT AREA: Electricity, Metallurgy, Public utilities, Telecommunications

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b. 4 April 1823 Lenthe, Germany

d. 19 November 1883 London, England

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German/British metallurgist and inventory pioneer of the regenerative principle and open-hearth steelmaking.

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Born Carl Wilhelm, he attended craft schools in Lübeck and Magdeburg, followed by an intensive course in natural science at Göttingen as a pupil of Weber. At the age of 19 Siemens travelled to England and sold an electroplating process developed by his brother Werner Siemens to Richard Elkington, who was already established in the plating business. From 1843 to 1844 he obtained practical experience in the Magdeburg works of Count Stolburg. He settled in England in 1844 and later assumed British nationality, but maintained close contact with his brother Werner, who in 1847 had co-founded the firm Siemens \& Halske in Berlin to manufacture telegraphic equipment. William began to develop his regenerative principle of waste-heat recovery and in 1856 his brother Frederick (1826–1904) took out a British patent for heat regeneration, by which hot waste gases were passed through a honeycomb of fire-bricks. When they became hot, the gases were switched to a second mass of fire-bricks and incoming air and fuel gas were led through the hot bricks. By alternating the two gas flows, high temperatures could be reached and considerable fuel economies achieved. By 1861 the two brothers had incorporated producer gas fuel, made by gasifying low-grade coal.

Heat regeneration was first applied in ironmaking by Cowper in 1857 for heating the air blast in blast furnaces. The first regenerative furnace was set up in Birmingham in 1860 for glassmaking. The first such furnace for making steel was developed in France by Pierre Martin and his father, Emile, in 1863. Siemens found British steelmakers reluctant to adopt the principle so in 1866 he rented a small works in Birmingham to develop his open-hearth steelmaking furnace, which he patented the following year. The process gradually made headway; as well as achieving high temperatures and saving fuel, it was slower than Bessemer's process, permitting greater control over the content of the steel. By 1900 the tonnage of open-hearth steel exceeded that produced by the Bessemer process.

In 1872 Siemens played a major part in founding the Society of Telegraph Engineers (from which the Institution of Electrical Engineers evolved), serving as its first President. He became President for the second time in 1878. He built a cable works at Charlton, London, where the cable could be loaded directly into the holds of ships moored on the Thames. In 1873, together with William Froude, a British shipbuilder, he designed the Faraday, the first specialized vessel for Atlantic cable laying. The successful laying of a cable from Europe to the United States was completed in 1875, and a further five transatlantic cables were laid by the Faraday over the following decade.

The Siemens factory in Charlton also supplied equipment for some of the earliest electric-lighting installations in London, including the British Museum in 1879 and the Savoy Theatre in 1882, the first theatre in Britain to be fully illuminated by electricity. The pioneer electric-tramway system of 1883 at Portrush, Northern Ireland, was an opportunity for the Siemens company to demonstrate its equipment.

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Principal Honours and Distinctions

Knighted 1883. FRS 1862. Institution of Civil Engineers Telford Medal 1853. President, Institution of Mechanical Engineers 1872. President, Society of Telegraph Engineers 1872 and 1878. President, British Association 1882.

Bibliography

27 May 1879, British patent no. 2,110 (electricarc furnace).

1889, The Scientific Works of C.William Siemens, ed. E.F.Bamber, 3 vols, London.

Further Reading

W.Poles, 1888, Life of Sir William Siemens, London; repub. 1986 (compiled from material supplied by the family).

S.von Weiher, 1972–3, "The Siemens brothers. Pioneers of the electrical age in Europe", Transactions of the Newcomen Society 45:1–11 (a short, authoritative biography). S.von Weihr and H.Goetler, 1983, The Siemens Company. Its Historical Role in the

Progress of Electrical Engineering 1847–1980, English edn, Berlin (a scholarly account with emphasis on technology).

GW

Stephenson, Robert

SUBJECT AREA: Land transport, Railways and locomotives

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b. 16 October 1803 Willington Quay, Northumberland, England

d. 12 October 1859 London, England

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English engineer who built the locomotive Rocket and constructed many important early trunk railways.

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Robert Stephenson's father was George Stephenson, who ensured that his son was educated to obtain the theoretical knowledge he lacked himself. In 1821 Robert Stephenson assisted his father in his survey of the Stockton \& Darlington Railway and in 1822 he assisted William James in the first survey of the Liverpool \& Manchester Railway. He then went to Edinburgh University for six months, and the following year Robert Stephenson \& Co. was named after him as Managing Partner when it was formed by himself, his father and others. The firm was to build stationary engines, locomotives and railway rolling stock; in its early years it also built paper-making machinery and did general engineering.

In 1824, however, Robert Stephenson accepted, perhaps in reaction to an excess of parental control, an invitation by a group of London speculators called the Colombian Mining Association to lead an expedition to South America to use steam power to reopen gold and silver mines. He subsequently visited North America before returning to England in 1827 to rejoin his father as an equal and again take charge of Robert Stephenson \& Co. There he set about altering the design of steam locomotives to improve both their riding and their steam-generating capacity. Lancashire Witch, completed in July 1828, was the first locomotive mounted on steel springs and had twin furnace tubes through the boiler to produce a large heating surface. Later that year Robert Stephenson \& Co. supplied the Stockton \& Darlington Railway with a wagon, mounted for the first time on springs and with outside bearings. It was to be the prototype of the standard British railway wagon. Between April and September 1829 Robert Stephenson built, not without difficulty, a multi-tubular boiler, as suggested by Henry Booth to George Stephenson, and incorporated it into the locomotive Rocket which the three men entered in the Liverpool \& Manchester Railway's Rainhill Trials in October. Rocket, was outstandingly successful and demonstrated that the long-distance steam railway was practicable.

Robert Stephenson continued to develop the locomotive. Northumbrian, built in 1830, had for the first time, a smokebox at the front of the boiler and also the firebox built integrally with the rear of the boiler. Then in Planet, built later the same year, he adopted a layout for the working parts used earlier by steam road-coach pioneer Goldsworthy Gurney, placing the cylinders, for the first time, in a nearly horizontal position beneath the smokebox, with the connecting rods driving a cranked axle. He had evolved the definitive form for the steam locomotive.

Also in 1830, Robert Stephenson surveyed the London \& Birmingham Railway, which was authorized by Act of Parliament in 1833. Stephenson became Engineer for construction of the 112-mile (180 km) railway, probably at that date the greatest task ever undertaken in of civil engineering. In this he was greatly assisted by G.P.Bidder, who as a child prodigy had been known as "The Calculating Boy", and the two men were to be associated in many subsequent projects. On the London \& Birmingham Railway there were long and deep cuttings to be excavated and difficult tunnels to be bored, notoriously at Kilsby. The line was opened in 1838.

In 1837 Stephenson provided facilities for W.F. Cooke to make an experimental electrictelegraph installation at London Euston. The directors of the London \& Birmingham Railway company, however, did not accept his recommendation that they should adopt the electric telegraph and it was left to I.K. Brunel to instigate the first permanent installation, alongside the Great Western Railway. After Cooke formed the Electric Telegraph Company, Stephenson became a shareholder and was Chairman during 1857–8.

Earlier, in the 1830s, Robert Stephenson assisted his father in advising on railways in Belgium and came to be increasingly in demand as a consultant. In 1840, however, he was almost ruined financially as a result of the collapse of the Stanhope \& Tyne Rail Road; in return for acting as Engineer-in-Chief he had unwisely accepted shares, with unlimited liability, instead of a fee.

During the late 1840s Stephenson's greatest achievements were the design and construction of four great bridges, as part of railways for which he was responsible. The High Level Bridge over the Tyne at Newcastle and the Royal Border Bridge over the Tweed at Berwick were the links needed to complete the East Coast Route from London to Scotland. For the Chester \& Holyhead Railway to cross the Menai Strait, a bridge with spans as long-as 460 ft (140 m) was needed: Stephenson designed them as wrought-iron tubes of rectangular cross-section, through which the trains would pass, and eventually joined the spans together into a tube 1,511 ft (460 m) long from shore to shore. Extensive testing was done beforehand by shipbuilder William Fairbairn to prove the method, and as a preliminary it was first used for a 400 ft (122 m) span bridge at Conway.

In 1847 Robert Stephenson was elected MP for Whitby, a position he held until his death, and he was one of the exhibition commissioners for the Great Exhibition of 1851. In the early 1850s he was Engineer-in-Chief for the Norwegian Trunk Railway, the first railway in Norway, and he also built the Alexandria \& Cairo Railway, the first railway in Africa. This included two tubular bridges with the railway running on top of the tubes. The railway was extended to Suez in 1858 and for several years provided a link in the route from Britain to India, until superseded by the Suez Canal, which Stephenson had opposed in Parliament. The greatest of all his tubular bridges was the Victoria Bridge across the River St Lawrence at Montreal: after inspecting the site in 1852 he was appointed Engineer-in-Chief for the bridge, which was 1 1/2 miles (2 km) long and was designed in his London offices. Sadly he, like Brunel, died young from self-imposed overwork, before the bridge was completed in 1859.

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Principal Honours and Distinctions

FRS 1849. President, Institution of Mechanical Engineers 1849. President, Institution of Civil Engineers 1856. Order of St Olaf (Norway). Order of Leopold (Belgium). Like his father, Robert Stephenson refused a knighthood.

Further Reading

L.T.C.Rolt, 1960, George and Robert Stephenson, London: Longman (a good modern biography).

J.C.Jeaffreson, 1864, The Life of Robert Stephenson, London: Longman (the standard nine-teenth-century biography).

M.R.Bailey, 1979, "Robert Stephenson \& Co. 1823–1829", Transactions of the Newcomen Society 50 (provides details of the early products of that company).

J.Kieve, 1973, The Electric Telegraph, Newton Abbot: David \& Charles.

See also: Pihl, Carl Abraham; Seguin, Marc

PJGR

Stephenson, George

SUBJECT AREA: Land transport, Railways and locomotives

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b. 9 June 1781 Wylam, Northumberland, England

d. 12 August 1848 Tapton House, Chesterfield, England

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English engineer, "the father of railways".

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George Stephenson was the son of the fireman of the pumping engine at Wylam colliery, and horses drew wagons of coal along the wooden rails of the Wylam wagonway past the house in which he was born and spent his earliest childhood. While still a child he worked as a cowherd, but soon moved to working at coal pits. At 17 years of age he showed sufficient mechanical talent to be placed in charge of a new pumping engine, and had already achieved a job more responsible than that of his father. Despite his position he was still illiterate, although he subsequently learned to read and write. He was largely self-educated.

In 1801 he was appointed Brakesman of the winding engine at Black Callerton pit, with responsibility for lowering the miners safely to their work. Then, about two years later, he became Brakesman of a new winding engine erected by Robert Hawthorn at Willington Quay on the Tyne. Returning collier brigs discharged ballast into wagons and the engine drew the wagons up an inclined plane to the top of "Ballast Hill" for their contents to be tipped; this was one of the earliest applications of steam power to transport, other than experimentally.

In 1804 Stephenson moved to West Moor pit, Killingworth, again as Brakesman. In 1811 he demonstrated his mechanical skill by successfully modifying a new and unsatisfactory atmospheric engine, a task that had defeated the efforts of others, to enable it to pump a drowned pit clear of water. The following year he was appointed Enginewright at Killingworth, in charge of the machinery in all the collieries of the "Grand Allies", the prominent coal-owning families of Wortley, Liddell and Bowes, with authorization also to work for others. He built many stationary engines and he closely examined locomotives of John Blenkinsop's type on the Kenton \& Coxlodge wagonway, as well as those of William Hedley at Wylam.

It was in 1813 that Sir Thomas Liddell requested George Stephenson to build a steam locomotive for the Killingworth wagonway: Blucher made its first trial run on 25 July 1814 and was based on Blenkinsop's locomotives, although it lacked their rack-and-pinion drive. George Stephenson is credited with building the first locomotive both to run on edge rails and be driven by adhesion, an arrangement that has been the conventional one ever since. Yet Blucher was far from perfect and over the next few years, while other engineers ignored the steam locomotive, Stephenson built a succession of them, each an improvement on the last.

During this period many lives were lost in coalmines from explosions of gas ignited by miners' lamps. By observation and experiment (sometimes at great personal risk) Stephenson invented a satisfactory safety lamp, working independently of the noted scientist Sir Humphry Davy who also invented such a lamp around the same time.

In 1817 George Stephenson designed his first locomotive for an outside customer, the Kilmarnock \& Troon Railway, and in 1819 he laid out the Hetton Colliery Railway in County Durham, for which his brother Robert was Resident Engineer. This was the first railway to be worked entirely without animal traction: it used inclined planes with stationary engines, self-acting inclined planes powered by gravity, and locomotives.

On 19 April 1821 Stephenson was introduced to Edward Pease, one of the main promoters of the Stockton \& Darlington Railway (S \& DR), which by coincidence received its Act of Parliament the same day. George Stephenson carried out a further survey, to improve the proposed line, and in this he was assisted by his 18-year-old son, Robert Stephenson, whom he had ensured received the theoretical education which he himself lacked. It is doubtful whether either could have succeeded without the other; together they were to make the steam railway practicable.

At George Stephenson's instance, much of the S \& DR was laid with wrought-iron rails recently developed by John Birkinshaw at Bedlington Ironworks, Morpeth. These were longer than cast-iron rails and were not brittle: they made a track well suited for locomotives. In June 1823 George and Robert Stephenson, with other partners, founded a firm in Newcastle upon Tyne to build locomotives and rolling stock and to do general engineering work: after its Managing Partner, the firm was called Robert Stephenson \& Co.

In 1824 the promoters of the Liverpool \& Manchester Railway (L \& MR) invited George Stephenson to resurvey their proposed line in order to reduce opposition to it. William James, a wealthy land agent who had become a visionary protagonist of a national railway network and had seen Stephenson's locomotives at Killingworth, had promoted the L \& MR with some merchants of Liverpool and had carried out the first survey; however, he overreached himself in business and, shortly after the invitation to Stephenson, became bankrupt. In his own survey, however, George Stephenson lacked the assistance of his son Robert, who had left for South America, and he delegated much of the detailed work to incompetent assistants. During a devastating Parliamentary examination in the spring of 1825, much of his survey was shown to be seriously inaccurate and the L \& MR's application for an Act of Parliament was refused. The railway's promoters discharged Stephenson and had their line surveyed yet again, by C.B. Vignoles.

The Stockton \& Darlington Railway was, however, triumphantly opened in the presence of vast crowds in September 1825, with Stephenson himself driving the locomotive Locomotion, which had been built at Robert Stephenson \& Co.'s Newcastle works. Once the railway was at work, horse-drawn and gravity-powered traffic shared the line with locomotives: in 1828 Stephenson invented the horse dandy, a wagon at the back of a train in which a horse could travel over the gravity-operated stretches, instead of trotting behind.

Meanwhile, in May 1826, the Liverpool \& Manchester Railway had successfully obtained its Act of Parliament. Stephenson was appointed Engineer in June, and since he and Vignoles proved incompatible the latter left early in 1827. The railway was built by Stephenson and his staff, using direct labour. A considerable controversy arose c. 1828 over the motive power to be used: the traffic anticipated was too great for horses, but the performance of the reciprocal system of cable haulage developed by Benjamin Thompson appeared in many respects superior to that of contemporary locomotives. The company instituted a prize competition for a better locomotive and the Rainhill Trials were held in October 1829.

Robert Stephenson had been working on improved locomotive designs since his return from America in 1827, but it was the L \& MR's Treasurer, Henry Booth, who suggested the multi-tubular boiler to George Stephenson. This was incorporated into a locomotive built by Robert Stephenson for the trials: Rocket was entered by the three men in partnership. The other principal entrants were Novelty, entered by John Braithwaite and John Ericsson, and Sans Pareil, entered by Timothy Hackworth, but only Rocket, driven by George Stephenson, met all the organizers' demands; indeed, it far surpassed them and demonstrated the practicability of the long-distance steam railway. With the opening of the Liverpool \& Manchester Railway in 1830, the age of railways began.

Stephenson was active in many aspects. He advised on the construction of the Belgian State Railway, of which the Brussels-Malines section, opened in 1835, was the first all-steam railway on the European continent. In England, proposals to link the L \& MR with the Midlands had culminated in an Act of Parliament for the Grand Junction Railway in 1833: this was to run from Warrington, which was already linked to the L \& MR, to Birmingham. George Stephenson had been in charge of the surveys, and for the railway's construction he and J.U. Rastrick were initially Principal Engineers, with Stephenson's former pupil Joseph Locke under them; by 1835 both Stephenson and Rastrick had withdrawn and Locke was Engineer-in-Chief. Stephenson remained much in demand elsewhere: he was particularly associated with the construction of the North Midland Railway (Derby to Leeds) and related lines. He was active in many other places and carried out, for instance, preliminary surveys for the Chester \& Holyhead and Newcastle \& Berwick Railways, which were important links in the lines of communication between London and, respectively, Dublin and Edinburgh.

He eventually retired to Tapton House, Chesterfield, overlooking the North Midland. A man who was self-made (with great success) against colossal odds, he was ever reluctant, regrettably, to give others their due credit, although in retirement, immensely wealthy and full of honour, he was still able to mingle with people of all ranks.

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Principal Honours and Distinctions

President, Institution of Mechanical Engineers, on its formation in 1847. Order of Leopold (Belgium) 1835. Stephenson refused both a knighthood and Fellowship of the Royal Society.

Bibliography

1815, jointly with Ralph Dodd, British patent no. 3,887 (locomotive drive by connecting rods directly to the wheels).

1817, jointly with William Losh, British patent no. 4,067 (steam springs for locomotives, and improvements to track).

Further Reading

L.T.C.Rolt, 1960, George and Robert Stephenson, Longman (the best modern biography; includes a bibliography).

S.Smiles, 1874, The Lives of George and Robert Stephenson, rev. edn, London (although sycophantic, this is probably the best nineteenthcentury biography).

PJGR

Crampton, Thomas Russell

SUBJECT AREA: Land transport, Railways and locomotives, Telecommunications

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b. 6 August 1816 Broadstairs, Kent, England

d. 19 April 1888 London, England

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English engineer, pioneer of submarine electric telegraphy and inventor of the Crampton locomotive.

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After private education and an engineering apprenticeship, Crampton worked under Marc Brunel, Daniel Gooch and the Rennie brothers before setting up as a civil engineer in 1848. His developing ideas on locomotive design were expressed through a series of five patents taken out between 1842 and 1849, each making a multiplicity of claims. The most typical feature of the Crampton locomotive, however, was a single pair of driving wheels set to the rear of the firebox. This meant they could be of large diameter, while the centre of gravity of the locomotive remained low, for the boiler barrel, though large, had only small carrying-wheels beneath it. The cylinders were approximately midway along the boiler and were outside the frames, as was the valve gear. The result was a steady-riding locomotive which neither pitched about a central driving axle nor hunted from side to side, as did other contemporary locomotives, and its working parts were unusually accessible for maintenance. However, adhesive weight was limited and the long wheelbase tended to damage track. Locomotives of this type were soon superseded on British railways, although they lasted much longer in Germany and France. Locomotives built to the later patents incorporated a long, coupled wheelbase with drive through an intermediate crankshaft, but they mostly had only short lives. In 1851 Crampton, with associates, laid the first successful submarine electric telegraph cable. The previous year the brothers Jacob and John Brett had laid a cable, comprising a copper wire insulated with gutta-percha, beneath the English Channel from Dover to Cap Gris Nez: signals were passed but within a few hours the cable failed. Crampton joined the Bretts' company, put up half the capital needed for another attempt, and designed a much stronger cable. Four gutta-percha-insulated copper wires were twisted together, surrounded by tarred hemp and armoured by galvanized iron wires; this cable was successful.

Crampton was also active in railway civil engineering and in water and gas engineering, and c. 1882 he invented a hydraulic tunnel-boring machine intended for a Channel tunnel.

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Principal Honours and Distinctions

Vice-President, Institution of Mechanical Engineers. Officier de la Légion d'Honneur (France).

Bibliography

1842, British patent no. 9,261.

1845. British patent no. 10,854.

1846. British patent no. 11,349.

1847. British patent no. 11,760.

1849, British patent no. 12,627.

1885, British patent no. 14,021.

Further Reading

M.Sharman, 1933, The Crampton Locomotive, Swindon: M.Sharman; P.C.Dewhurst, 1956–7, "The Crampton locomotive", Parts I and II, Transactions of the Newcomen Society 30:99 (the most important recent publications on Crampton's locomotives).

C.Hamilton Ellis, 1958, Twenty Locomotive Men, Shepperton: Ian Allen. J.Kieve, 1973, The Electric Telegraph, Newton Abbot: David \& Charles, 102–4.

R.B.Matkin, 1979, "Thomas Crampton: Man of Kent", Industrial Past 6 (2).

PJGR

Hornby, Frank

SUBJECT AREA: Domestic appliances and interiors

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b. 15 May 1863 Liverpool, England

d. 21 September 1936 Liverpool, England

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English toy manufacturer and inventor of Meccano kits.

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Frank Hornby left school at the age of 16 and worked as a clerk, at first for his father, a provision merchant, and later for D.H.Elliott, an importer of meat and livestock, for whom he became Managing Clerk. As a youth he was interested in engineering and in his own small workshop he became a skilled amateur mechanic. He made toys for his children and c.1900 he devised a constructional toy kit consisting of perforated metal strips which could be connected by bolts and nuts. He filed a patent application in January 1901 and, having failed to interest established toy manufacturers, he set up a small business in partnership with his employer, D.H. Elliott, who provided financial support. The kits were sold at first under the name of Mechanics Made Easy, but by 1907 the name Meccano had been registered as a trade mark. The business expanded rapidly and in 1908 Elliott withdrew from the partnership and Hornby continued on his own account, the company being incorporated as Meccano Ltd. Although parts for Meccano were produced at first by various manufacturers, Hornby soon acquired premises to produce all the components under his own control, and between 1910 and 1913 he established his own factory on a 5-acre (2-hectare) site at Binn's Road, Liverpool. The Meccano Magazine, a monthly publication with articles of general engineering interest, developed from a newsletter giving advice on the use of Meccano, and from the first issue in 1916 until 1924 was edited by Frank Hornby. In 1920 he introduced the clockwork Hornby trains, followed by the electric version five years later. These were gauge "0" (1 1/4 in./32 mm); the smaller gauge "00", or Hornby Dublo, was a later development. Another product of Meccano Ltd was the series of model vehicles known as Dinky toys, introduced in 1934.

Frank Hornby served as a Member of Parliament for the Everton Division of Liverpool from 1931 to 1935.

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Principal Honours and Distinctions

MP, 1931–5.

Further Reading

D.J.Jeremy (ed.), 1984–6, Dictionary of Business Biography, Vol. 3, London, 345–9 (a useful biography).

Proceedings of the Institution of Mechanical Engineers 127(1934):140–1 (describes the Binn's Road factory).

RTS

MI

1) Общая лексика: средний инициал (Middle Initial)

2) Компьютерная техника: Memory Information

3) Медицина: механический индекс (mechanical index), mitral insufficiency (недостаточность митрального клапана), myocardial infarction (инфаркт миокарда)

4) Латинский язык: Militia Immaculatae

5) Военный термин: Members Interests, Message Indicator, Middle Initial, Midway Island, Military Industry, Mission Impossible, Mobile Infantry, Mustered In, maintenance instruction, manned interceptor, master item, material inspection, material inspector, medical inspection, midcource intercept, military instruction, military intelligence, military internee, military interpreter, military item, missile industry, missile intercept, modification instruction, mounted infantry, musketry instructor

6) Техника: Model Independent, manual input, matrix inversion, memory interface, microphone, military interrogator, modulation index, moving-in, statute mile, обозначение наземных подвижных станций

7) Шутливое выражение: Midnight Insanity

8) Железнодорожный термин: Union Pacific Railroad Company

9) Юридический термин: Malicious Intent, Masked Intruder, Mentally Insane

10) Бухгалтерия: minority interest

11) Биржевой термин: Market Intelligence

12) Грубое выражение: Mental Idiot

13) Политика: Malawi

14) Сокращение: Civil aircraft marking (Marshall Islands), Machine Intelligence, Management Instruction, Maori, Maritime Interdiction, Miami, Michigan (US state), Michigan, Motion Imagery, malleable iron, manufacturing instruction, missile, mortality index, Multiple Inheritance, myocardial infarction, МУ (муниципальное учреждение - municipal institution), Measles Initiative

15) Текстиль: Made In

16) Университет: Musicians Institute

17) Физиология: Mental illness, Mitral Insufficiency, Multiple Intelligences

18) Электроника: Measurement Interval

19) Вычислительная техника: machine interface, microimage, microinstruction

20) Нефть: Min E Member of the Institute of Mining Engineers, management info, moving in, доставка на буровую (оборудования, moving in), инструкция по техническому обслуживанию (maintenance instruction), показатель ремонтопригодности (maintainability index), mineral interest (see also: minerals), miscible injectant

21) Онкология: Miocardial Infarction

22) Пищевая промышленность: Menu Item

23) Фирменный знак: Manga International, Millipore, Monza Indianapolis

24) СМИ: Michigan Indoors, Moving Image

25) Деловая лексика: Missing Intern

26) Глоссарий компании Сахалин Энерджи: management incentive, mineral insulation

27) Образование: Measurement Incorporated

28) Сетевые технологии: Multi Interface, management interface

29) Полимеры: melt index

30) Программирование: Maskable Interrupt, Micro Instruction

31) Автоматика: manufacturing intelligence

32) Контроль качества: maintainability index

33) Океанография: Missing Ice

34) Химическое оружие: Market Investigation

35) Безопасность: Message Invader

36) Расширение файла: Miscellaneous

37) Нефть и газ: MV impulse amplitude, microinverse, microlateral

38) Электротехника: mineral insulated

39) Общественная организация: MOPS International

40) Должность: Master Iridologist

41) НАСА: Mode Indicator

Mi

1) Общая лексика: средний инициал (Middle Initial)

2) Компьютерная техника: Memory Information

3) Медицина: механический индекс (mechanical index), mitral insufficiency (недостаточность митрального клапана), myocardial infarction (инфаркт миокарда)

4) Латинский язык: Militia Immaculatae

5) Военный термин: Members Interests, Message Indicator, Middle Initial, Midway Island, Military Industry, Mission Impossible, Mobile Infantry, Mustered In, maintenance instruction, manned interceptor, master item, material inspection, material inspector, medical inspection, midcource intercept, military instruction, military intelligence, military internee, military interpreter, military item, missile industry, missile intercept, modification instruction, mounted infantry, musketry instructor

6) Техника: Model Independent, manual input, matrix inversion, memory interface, microphone, military interrogator, modulation index, moving-in, statute mile, обозначение наземных подвижных станций

7) Шутливое выражение: Midnight Insanity

8) Железнодорожный термин: Union Pacific Railroad Company

9) Юридический термин: Malicious Intent, Masked Intruder, Mentally Insane

10) Бухгалтерия: minority interest

11) Биржевой термин: Market Intelligence

12) Грубое выражение: Mental Idiot

13) Политика: Malawi

14) Сокращение: Civil aircraft marking (Marshall Islands), Machine Intelligence, Management Instruction, Maori, Maritime Interdiction, Miami, Michigan (US state), Michigan, Motion Imagery, malleable iron, manufacturing instruction, missile, mortality index, Multiple Inheritance, myocardial infarction, МУ (муниципальное учреждение - municipal institution), Measles Initiative

15) Текстиль: Made In

16) Университет: Musicians Institute

17) Физиология: Mental illness, Mitral Insufficiency, Multiple Intelligences

18) Электроника: Measurement Interval

19) Вычислительная техника: machine interface, microimage, microinstruction

20) Нефть: Min E Member of the Institute of Mining Engineers, management info, moving in, доставка на буровую (оборудования, moving in), инструкция по техническому обслуживанию (maintenance instruction), показатель ремонтопригодности (maintainability index), mineral interest (see also: minerals), miscible injectant

21) Онкология: Miocardial Infarction

22) Пищевая промышленность: Menu Item

23) Фирменный знак: Manga International, Millipore, Monza Indianapolis

24) СМИ: Michigan Indoors, Moving Image

25) Деловая лексика: Missing Intern

26) Глоссарий компании Сахалин Энерджи: management incentive, mineral insulation

27) Образование: Measurement Incorporated

28) Сетевые технологии: Multi Interface, management interface

29) Полимеры: melt index

30) Программирование: Maskable Interrupt, Micro Instruction

31) Автоматика: manufacturing intelligence

32) Контроль качества: maintainability index

33) Океанография: Missing Ice

34) Химическое оружие: Market Investigation

35) Безопасность: Message Invader

36) Расширение файла: Miscellaneous

37) Нефть и газ: MV impulse amplitude, microinverse, microlateral

38) Электротехника: mineral insulated

39) Общественная организация: MOPS International

40) Должность: Master Iridologist

41) НАСА: Mode Indicator

mi

1) Общая лексика: средний инициал (Middle Initial)

2) Компьютерная техника: Memory Information

3) Медицина: механический индекс (mechanical index), mitral insufficiency (недостаточность митрального клапана), myocardial infarction (инфаркт миокарда)

4) Латинский язык: Militia Immaculatae

5) Военный термин: Members Interests, Message Indicator, Middle Initial, Midway Island, Military Industry, Mission Impossible, Mobile Infantry, Mustered In, maintenance instruction, manned interceptor, master item, material inspection, material inspector, medical inspection, midcource intercept, military instruction, military intelligence, military internee, military interpreter, military item, missile industry, missile intercept, modification instruction, mounted infantry, musketry instructor

6) Техника: Model Independent, manual input, matrix inversion, memory interface, microphone, military interrogator, modulation index, moving-in, statute mile, обозначение наземных подвижных станций

7) Шутливое выражение: Midnight Insanity

8) Железнодорожный термин: Union Pacific Railroad Company

9) Юридический термин: Malicious Intent, Masked Intruder, Mentally Insane

10) Бухгалтерия: minority interest

11) Биржевой термин: Market Intelligence

12) Грубое выражение: Mental Idiot

13) Политика: Malawi

14) Сокращение: Civil aircraft marking (Marshall Islands), Machine Intelligence, Management Instruction, Maori, Maritime Interdiction, Miami, Michigan (US state), Michigan, Motion Imagery, malleable iron, manufacturing instruction, missile, mortality index, Multiple Inheritance, myocardial infarction, МУ (муниципальное учреждение - municipal institution), Measles Initiative

15) Текстиль: Made In

16) Университет: Musicians Institute

17) Физиология: Mental illness, Mitral Insufficiency, Multiple Intelligences

18) Электроника: Measurement Interval

19) Вычислительная техника: machine interface, microimage, microinstruction

20) Нефть: Min E Member of the Institute of Mining Engineers, management info, moving in, доставка на буровую (оборудования, moving in), инструкция по техническому обслуживанию (maintenance instruction), показатель ремонтопригодности (maintainability index), mineral interest (see also: minerals), miscible injectant

21) Онкология: Miocardial Infarction

22) Пищевая промышленность: Menu Item

23) Фирменный знак: Manga International, Millipore, Monza Indianapolis

24) СМИ: Michigan Indoors, Moving Image

25) Деловая лексика: Missing Intern

26) Глоссарий компании Сахалин Энерджи: management incentive, mineral insulation

27) Образование: Measurement Incorporated

28) Сетевые технологии: Multi Interface, management interface

29) Полимеры: melt index

30) Программирование: Maskable Interrupt, Micro Instruction

31) Автоматика: manufacturing intelligence

32) Контроль качества: maintainability index

33) Океанография: Missing Ice

34) Химическое оружие: Market Investigation

35) Безопасность: Message Invader

36) Расширение файла: Miscellaneous

37) Нефть и газ: MV impulse amplitude, microinverse, microlateral

38) Электротехника: mineral insulated

39) Общественная организация: MOPS International

40) Должность: Master Iridologist

41) НАСА: Mode Indicator