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1 military designs
Дипломатический термин: военные планы -
2 military designs
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3 military designs
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4 design
I n1. задум, план; часто pl (злий) намір/ умисел2. ціль, намір3. (творчий) задум, план, проект- aggressive designs агресивні плани- far-reaching designs далекоглядні плани- industrial design промисловий зразок- military designs військові плани- to frustrate smbd.'s designs зірвати чиїсь плани/ замисли- to harbour designs виношувати злі/ підступні замисли- with a design з наміром, з ціллюII v1. задумувати, мати намір, планувати2. визначати3. складати план/ схему, планувати, проектувати, конструювати -
5 design
1. n1) замысел, план; часто pl (злой) умысел- frustrate smb.'s designs2) цель, намерение3) (творческий) замысел; план, проект•2. v1) замышлять; намереваться, планировать3) составлять план; планировать, проектировать, конструировать -
6 Focke, E.H.Heinrich
SUBJECT AREA: Aerospace[br]b. October 1890 Bremen, Germanyd. February 1979 Bremen, Germany[br]German aircraft designer who was responsible for the first practical helicopter, in 1936.[br]Between 1911 and 1914 Heinrich Focke and Georg Wulf built a monoplane and some years later, in 1924, they founded the Focke-Wulf company. They designed and built a variety of civil and military aircraft including the F 19Ente, a tail-first design of 1927. This canard layout was thought to be safer than conventional designs but, unfortunately, it crashed, killing Wulf. Around 1930 Focke became interested in rotary-wing aircraft, and in 1931 he set up a company with Gerd Achgelis to conduct research in this field. The Focke-Wulf company took out a licence to build Cierva autogiros. Focke designed an improved autogiro, the Fw 186, which flew in 1938; it was entered for a military competition, but it was beaten by a fixed-wing aircraft, the Fieseler Storch. In May 1935 Focke resigned from Focke-Wulf to concentrate on helicopter development with the Focke-Achgelis company. His first design was the Fa 61 helicopter, which utilized the fuselage and engine of a conventional aeroplane but instead of wings had two out-riggers, each carrying a rotor. The engine drove these rotors in opposite directions to counteract the adverse torque effect (with a single rotor the fuselage tends to rotate in the opposite direction to the rotor). Following its first flight on 26 June 1936, the Fa 61 went on to break several world records. However, it attracted more public attention when it was flown inside the huge Deutschlandhalle in Berlin by the famous female test pilot Hanna Reitsch in February 1938. Focke continued to develop his helicopter projects for the Focke-Achgelis company and produced the Fa 223 Drache in 1940. This used twin contra-rotating rotors, like the Fa 61, but could carry six people. Its production was hampered by allied bombing of the factory. During the Second World War Focke- Achgelis also produced a rotor kite which could be towed behind a U-boat to provide a flying "crow's nest", as well as designs for an advanced convertiplane (part aeroplane, part helicopter). After the war, Focke worked in France, the Netherlands and Brazil, then in 1954 he became Professor of Aeroplane and Helicopter Design at the University of Stuttgart.[br]Principal Honours and DistinctionsWissenschaftliche, Gesellschaft für Luftfahrt Lilienthal Medal, Prandtl-Ring.Bibliography1965, "German thinking on rotary-wing development", Journal of the Royal Aeronautical Society, (May).Further ReadingW.Gunston and J.Batchelor, 1977, Helicopters 1900–1960, London.J.R.Smith, 1973, Focke-Wulf: An Aircraft Album, London (primarily a picture book). R.N.Liptrot, 1948, Rotating Wing Activities in Germany during the Period 1939–45, London.K.von Gersdorff and K.Knobling, 1982, Hubschrauber und Tragschrauber, Munich (a more recent publication, in German).JDS -
7 Villard de Honnecourt
[br]b. c. 1200 Honnecourt-sur-Escaut, near Cambrai, Franced. mid-13th century (?) France[br]French architect-engineer.[br]Villard was one of the thirteenth-century architect-engineers who were responsible for the design and construction of the great Gothic cathedrals and other churches of the time. Their responsibilities covered all aspects of the work, including (in the spirit of the Roman architect Vitruvius) the invention and construction of mechanical devices. In their time, these men were highly esteemed and richly rewarded, although few of the inscriptions paying tribute to their achievements have survived. Villard stands out among them because a substantial part of his sketchbook has survived, in the form of thirty-three parchment sheets of drawings and notes, now kept in the Bibliothèque Nationale in Paris. Villard's professional career lasted roughly from 1225 to 1250. As a boy, he went to work on the building of the Cistercian monastery at Vaucelles, not far from Honnecourt, and afterwards he was apprenticed to the masons' lodge at Cambrai Cathedral, where he began copying the drawings and layouts on the tracing-house floor. All his drawings are, therefore, of the plans, elevations and sections of cathedrals. These buildings have long since been destroyed, but his drawings, perhaps among his earliest, bear witness to their architecture. He travelled widely in France and recorded features of the great works at Reims, Laon and Chartres. These include the complex system of passageways built into the fabric of a great cathedral; Villard comments that one of their purposes was "to allow circulation in case of fire".Villard was invited to Hungary and reached there c. 1235. He may have been responsible for the edifice dedicated to St Elizabeth of Hungary, canonized in 1235, at Kassa (now Košice, Slovakia). Villard probably returned to France c. 1240, at least before the Tartar invasion of Hungary in 1241.His sketchbook, which dates to c. 1235, stands as a memorial to Villard's skill as a draughtsman, a student of perspective and a mechanical engineer. He took his sketchbook with him on his travels, and used ideas from it in his work abroad. It contains architectural designs, geometrical constructions for use in building, surveying exercises and drawings for various kinds of mechanical devices, for civil or military use. He was transmitting details from the highly developed French Gothic masons to the relatively underdeveloped eastern countries. The notebooks were annotated for the use of pupils and other master masons, and the notes on geometry were obviously intended for pupils. The prize examples are the pages in the book, clearly Villard's own work, related to mechanical devices. Whilst he, like many others of the period and after, played with designs for perpetual-motion machines, he concentrated on useful devices. These included the first Western representation of a perpetualmotion machine, which at least displays a concern to derive a source of energy: this was a water-powered sawmill, with automatic feed of the timber into the mill. This has been described as the first industrial automatic power-machine to involve two motions, for it not only converts the rotary motion of the water-wheel to the reciprocating motion of the saw, but incorporates a means of keeping the log pressed against the saw. His other designs included water-wheels, watermills, the Archimedean screw and other curious devices.[br]BibliographyOf several facsimile reprints with notes there are Album de Villard de Honnecourt, 1858, ed. J.B.Lassus, Paris (repr. 1968, Paris: Laget), and The Sketchbook of Villard de Honnecourt, 1959, ed. T.Bowie, Bloomington: Indiana University Press.Further ReadingJ.Gimpel, 1977, "Villard de Honnecourt: architect and engineer", The Medieval Machine, London: Victor Gollancz, ch. 6, pp. 114–46.——1988, The Medieval Machine, the Industrial Revolution of the Middle Ages, London.R.Pernord, J.Gimpel and R.Delatouche, 1986, Le Moyen age pour quoi fayre, Paris.KM / LRD -
8 Renard, Charles
SUBJECT AREA: Aerospace[br]b. 23 November 1847 Damblain, Vosges, Franced. 13 April 1905 Chalais-Meudon, France[br]French pioneer of military aeronautics who, with A.C.Krebs, built an airship powered by an electric motor.[br]Charles Renard was a French army officer with an interest in aviation. In 1873 he constructed an unusual unmanned glider with ten wings and an automatic stabilizing device to control rolling. This operated by means of a pendulum device linked to moving control surfaces. The model was launched from a tower near Arras, but unfortunately it spiralled into the ground. The control surfaces could not cope with the basic instability of the design, but as an idea for automatic flight control it was ahead of its time.Following a Commission report on the military use of balloons, carrier pigeons and an optical telegraph, an aeronautical establishment was set up in 1877 at Chalais-Meudon, near Paris, under the direction of Charles Renard, who was assisted by his brother Paul. The following year Renard and a colleague, Arthur Krebs, began to plan an airship. They received financial help from Léon Gambetta, a prominent politician who had escaped from Paris by balloon in 1870 during the siege by the Prussians. Renard and Krebs studied earlier airship designs: they used the outside shape of Paul Haenlein's gas-engined airship of 1872 and included Meusnier's internal air-filled ballonnets. The gas-engine had not been a success so they decided on an electric motor. Renard developed lightweight pile batteries while Krebs designed a motor, although this was later replaced by a more powerful Gramme motor of 6.5 kW (9 hp). La France was constructed at Chalais-Meudon and, after a two-month wait for calm conditions, the airship finally ascended on 9 August 1884. The motor was switched on and the flight began. Renard and Krebs found their airship handled well and after twenty-three minutes they landed back at their base. La, France made several successful flights, but its speed of only 24 km/h (15 mph) meant that flights could be made only in calm weather. Parts of La, France, including the electric motor, are preserved in the Musée de l'Air in Paris.Renard remained in charge of the establishment at Chalais-Meudon until his death. Among other things, he developed the "Train Renard", a train of articulated road vehicles for military and civil use, of which a number were built between 1903 and 1911. Towards the end of his life Renard became interested in helicopters, and in 1904 he built a large twin-rotor model which, however, failed to take off.[br]Bibliography1886, Le Ballon dirigeable La France, Paris (a description of the airship).Further ReadingDescriptions of Renard and Kreb's airship are given in most books on the history of lighter-than-air flight, e.g.L.T.C.Rolt, 1966, The Aeronauts, London; pub. in paperback 1985.C.Bailleux, c. 1988, Association pour l'Histoire de l'Electricité en France, (a detailed account of the conception and operations of La France).1977, Centenaire de la recherche aéronautique à Chalais-Meudon, Paris (an official memoir on the work of Chalais-Meudon with a chapter on Renard).JDS -
9 territory
n1) территория2) амер. территория, административная единица, не имеющая прав штата, но избирающая свое законодательное собрание•to administer trust territories — управлять подопечными территориями / территориями под опекой
to annex the conquered territory to a state — аннексировать / присоединять завоеванную территорию к государству
to be master of one's own territory — быть хозяином своей территории
to break a territory away from a country — отторгать какую-л. территорию от страны
to exercise the administration of the trust territory — осуществлять управление территорией под опекой
to hand a territory over to a country — передавать какую-л. территорию стране
to have designs on a country's territory — иметь виды на территорию какой-л. страны
to have expansionist designs on a territory — иметь захватнические замыслы в отношении какой-л. территории
to have some claims on a territory — претендовать на какую-л. территорию
to keep the lid on the occupied territories — перен. сохранять контроль над положением на оккупированных территориях
to lay claim to a territory — претендовать на какую-л. территорию
to penetrate a territory (in strength) — проникать на чью-л. территорию ( о военных силах)
to reconquer a territory — освобождать территорию, занятую противником
to relinquish / to renounce a territory — отказываться от какой-л. территории
to retrieve the occupied territories — возвращать себе территории, захваченные врагом
to return a territory to a country's sovereignty — восстанавливать суверенитет страны над какой-л. территорией
to supervise the administration of trust territories — наблюдать за управлением подопечными территориями
to take over a territory from the control of a country — забирать какую-л. территорию из-под управления какой-л. страны
- annexation of a territoryto withdraw all military bases and installations from territories — ликвидировать все военные базы и сооружения на территориях
- annexed territory
- border territory
- claimed territory
- claims to a territory
- demilitarized territory
- densely populated territory
- dependent territories
- dismemberment of a territory
- disputed territory
- divided territory
- encroachments on a territory
- hotly contested territory
- illegally occupied territory
- in a country's territory
- in the occupied territories
- incursion into a territory
- inviolability of territory
- inviolable territory
- liberated territory
- long-disputed territory
- mandated territory
- national territory
- neutral territory
- non-self-governing territory
- not to give up one inch of one's territory
- not to yield one inch of one's territory
- occupation of foreign territories
- occupied territory
- overseas territories
- regained territories
- relative calm in the territory
- responsibilities towards a territory
- Scheduled Territory
- seized territories
- self-governing territory
- sensitive territory
- shrunken territory
- sliver of territory
- sparsely populated territory
- state territory
- subjugation of a territory
- territory in dispute
- territory reverts to a country
- territory under a country's administration
- territory under smb's flag
- territorial expansion into a country's territory
- territories detached from enemy states
- territories held under mandate
- territories of contiguous states
- territories voluntarily placed under the trusteeship system
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10 Fokker, Anthony Herman Gerard
SUBJECT AREA: Aerospace[br]b. 6 April 1890 Kediri, Java, Dutch East Indies (now Indonesia)d. 23 December 1939 New York, USA[br]Dutch designer of German fighter aircraft during the First World War and of many successful airliners during the 1920s and 1930s.[br]Anthony Fokker was born in Java, where his Dutch father had a coffee plantation. The family returned to the Netherlands and, after schooling, young Anthony went to Germany to study aeronautics. With the aid of a friend he built his first aeroplane, the Spin, in 1910: this was a monoplane capable of short hops. By 1911 Fokker had improved the Spin and gained a pilot's licence. In 1912 he set up a company called Fokker Aeroplanbau at Johannistal, outside Berlin, and a series of monoplanes followed.When war broke out in 1914 Fokker offered his designs to both sides, and the Germans accepted them. His E I monoplane of 1915 caused a sensation with its manoeuvrability and forward-firing machine gun. Fokker and his collaborators improved on the French deflector system introduced by Raymond Saulnier by fitting an interrupter gear which synchronized the machine gun to fire between the blades of the rotating propeller. The Fokker Dr I triplane and D VII biplane were also outstanding German fighters of the First World War. Fokker's designs were often the work of an employee who received little credit: nevertheless, Fokker was a gifted pilot and a great organizer. After the war, Fokker moved back to the Netherlands and set up the Fokker Aircraft Works in Amsterdam. In 1922, however, he emigrated to the USA and established the Atlantic Aircraft Corporation in New Jersey. His first significant success there came the following year when one of his T-2 monoplanes became the first aircraft to fly non-stop across the USA, from New York to San Diego. He developed a series of civil aircraft using the well-proven method of construction he used for his fighters: fuselages made from steel tubes and thick, robust wooden wings. Of these, probably the most famous was the F VII/3m, a high-wing monoplane with three engines and capable of carrying about ten passengers. From 1925 the F VII/3m airliner was used worldwide and made many record-breaking flights, such as Lieutenant-Commander Richard Byrd's first flight over the North Pole in 1926 and Charles Kingsford-Smith's first transpacific flight in 1928. By this time Fokker had lost interest in military aircraft and had begun to see flight as a means of speeding up global communications and bringing people together. His last years were spent in realizing this dream, and this was reflected in his concentration on the design and production of passenger aircraft.[br]Principal Honours and DistinctionsRoyal Netherlands Aeronautical Society Gold Medal 1932.Bibliography1931, The Flying Dutchman: The Life of Anthony Fokker, London: Routledge \& Sons (an interesting, if rather biased, autobiography).Further ReadingA.R.Weyl, 1965, Fokker: The Creative Years, London; reprinted 1988 (a very detailed account of Fokker's early work).Thijs Postma, 1979, Fokker: Aircraft Builders to the World, Holland; 1980, English edn, London (a well-illustrated history of Fokker and the company).Henri Hegener, 1961, Fokker: The Man and His Aircraft, Letchworth, Herts.JDS / CMBiographical history of technology > Fokker, Anthony Herman Gerard
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11 Messerschmitt, Willi E.
SUBJECT AREA: Aerospace[br]b. 26 June 1898 Frankfurt-am-Main, Germanyd. 17 September 1978 Munich, Germany[br]German aircraft designer noted for successful fighters such as the Bf 109, one of the world's most widely produced aircraft.[br]Messerschmitt studied engineering at the Munich Institute of Tchnology and obtained his degree in 1923. By 1926 he was Chief Designer at the Bayerische Flugzeugwerke in Augsburg. Due to the ban on military aircraft in Germany following the First World War, his early designs included gliders, light aircraft, and a series of high-wing airliners. He began to make a major impact on German aircraft design once Hitler came to power and threw off the shackles of the Treaty of Versailles, which so restricted Germany's armed forces. In 1932 he bought out the now-bankrupt Bayerische Flugzeugwerke, but initially, because of enmity between himself and the German aviation minister, was not invited to compete for an air force contract for a single-engined fighter. However, in 1934 Messerschmitt designed the Bf 108 Taifun, a small civil aircraft with a fighter-like appearance. This displayed the quality of his design and the German air ministry was forced to recognize him. As a result, he unveiled the famous Bf 109 fighter which first flew in August 1935; it was used during the Spanish Civil War in 1936–9, and was to become one of the foremost combat aircraft of the Second World War. In 1938, after several name changes, the company became Messerschmitt Aktien-Gesellschaft (and hence a change of prefix from Bf to Me). During April 1939 a Messerschmitt aircraft broke the world air-speed record at 755.14 km/h (469.32 mph): it was entered in the FAI records as a Bf 109R, but was more accurately a new design designated Me 209V-1.During the Second World War, the 5/70P was progressively improved, and eventually almost 35,000 were built. Other successful fighters followed, such as the twin-engined Me 110 which also served as a bomber and night fighter. The Messerschmitt Me 262 twin-engined jet fighter, the first jet aircraft in the world to enter service, flew during the early years of the war, but it was never given a high priority by the High Command and only a small number were in service when the war ended. Another revolutionary Messerschmitt AG design was the Me 163 Komet, the concept of Professor Alexander Lippisch who had joined Messerschmitt's company in 1939; this was the first rocket-propelled fighter to enter service. It was a small tailless design capable of 880 km/hr (550 mph), but its duration under power was only about 10 minutes and it was very dangerous to fly. From late 1944 onwards it was used to intercept the United States Air Force bombers during their daylight raids. At the other end of the scale, Messerschmitt produced the Me 321 Gigant, a huge transport glider which was towed behind a flight of three Me 110s. Later it was equipped with six engines, but it was an easy target for allied fighters. This was a costly white elephant, as was his high-speed twin-engined Me 210 fighter-bomber project which nearly made his company bankrupt. Nevertheless, he was certainly an innovator and was much admired by Hitler, who declared that he had "the skull of a genius", because of the Me 163 Komet rocket-powered fighter and the Me 262.At the end of the war Messerschmitt was detained by the Americans for two years. In 1952 Messerschmitt became an aviation adviser to the Spanish government, and his Bf109 was produced in Spain as the Hispano Buchon for a number of years and was powered by Rolls-Royce Merlin engines. A factory was also constructed in Egypt to produce aircraft to Messerschmitt's designs. His German company, banned from building aircraft, produced prefabricated houses, sewing machines and, from 1953 to 1962, a series of bubble-cars: the KR 175 (1953–55) and the KR 200 (1955–62) were single-cylinder three-wheeled bubble-cars, and the Tiger (1958–62) was a twin-cylinder, 500cc four-wheeler. In 1958 Messerschmitt resumed aircraft construction in Germany and later became the Honorary Chairman of the merged Messerschmitt-Bölkow-Blohm company (now part of the Franco-German Eurocopter company).[br]Further Readingvan Ishoven, 1975, Messerschmitt. Aircraft Designer, London. J.Richard Smith, 1971, Messerschmitt. An Air-craft Album, London.Anthony Pritchard, 1975, Messerschmitt, London (describes Messerschmitt aircraft).JDS / CMBiographical history of technology > Messerschmitt, Willi E.
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12 disclose
vразоблачать; раскрывать; обнаруживать; разглашатьto disclose one's designs — разоблачать чьи-л. замыслы
to disclose one's intentions — разоблачать чьи-л. намерения
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13 parade
parade [pəˈreɪd]1. nouna. ( = procession) défilé m( = display) afficher[soldiers] défiler* * *[pə'reɪd] 1.1) ( procession) parade f3) ( display) ( of designs) défilé m; ( of ideas) souvent péj étalage m4) GB ( row)2.transitive verb1) ( display) faire étalage de2) ( claim)3.to parade up and down — [soldier, model] défiler; [child, person] parader
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14 aggressive
1. a агрессивный, захватнический2. a агрессивный, задиристый; вызывающийaggressive behaviour — агрессивное поведение; задирание:
aggressive crime — агрессивное, насильственное преступление
3. a преим. воен. активный, энергичный; действенный4. a настойчивый; напористый; пробивной5. a спец. коррозионный, агрессивный6. a агрессияСинонимический ряд:1. assertive (adj.) assertive; assertory; determined; domineering; dynamic; energetic; enterprising; forward; macho; pushful; pushing; pushy; self-assertive2. bold (adj.) audacious; bold; daring3. combative (adj.) bellicose; belligerent; combative; contentious; hawkish; hostile; militant; offensive; pugnacious; truculent; warlikeАнтонимический ряд:bashful; shy; submissive -
15 Patti
PATTI, or PATThe hair of a goat, common in Kabul and Peshawar. It is used in making the fabric known as Pattu. ———————— A wool fabric native woven in the hill districts of India, in pieces from 9-in. to 18-in. wide and 10 yards to 12 yards long. Made of pat wool or sometimes Shabri. Several of these are sewn together to make a pattu. ———————— An Indian term given to a variety of carpets made in the Madras Presidency. The designs are very crude and only blue, white and red colours used. The yarns are generally cotton in very coarse counts; wool is seldom used, but jute is sometimes used. The term also describes the leg wrapping made in narrow strips from cotton or wool yarns and wound spirally round the leg from ankle to knee. The military puttee is derived from this. The term also describes another narrow fabric made 9-in. to 12-in. wide and stitched together to make bags, tents, screens, etc. This is made from cotton or jute yarns, and is common in the Madras district. -
16 Hamilton, Harold Lee (Hal)
[br]b. 14 June 1890 Little Shasta, California, USAd. 3 May 1969 California, USA[br]American pioneer of diesel rail traction.[br]Orphaned as a child, Hamilton went to work for Southern Pacific Railroad in his teens, and then worked for several other companies. In his spare time he learned mathematics and physics from a retired professor. In 1911 he joined the White Motor Company, makers of road motor vehicles in Denver, Colorado, where he had gone to recuperate from malaria. He remained there until 1922, apart from an eighteenth-month break for war service.Upon his return from war service, Hamilton found White selling petrol-engined railbuses with mechanical transmission, based on road vehicles, to railways. He noted that they were not robust enough and that the success of petrol railcars with electric transmission, built by General Electric since 1906, was limited as they were complex to drive and maintain. In 1922 Hamilton formed, and became President of, the Electro- Motive Engineering Corporation (later Electro-Motive Corporation) to design and produce petrol-electric rail cars. Needing an engine larger than those used in road vehicles, yet lighter and faster than marine engines, he approached the Win ton Engine Company to develop a suitable engine; in addition, General Electric provided electric transmission with a simplified control system. Using these components, Hamilton arranged for his petrol-electric railcars to be built by the St Louis Car Company, with the first being completed in 1924. It was the beginning of a highly successful series. Fuel costs were lower than for steam trains and initial costs were kept down by using standardized vehicles instead of designing for individual railways. Maintenance costs were minimized because Electro-Motive kept stocks of spare parts and supplied replacement units when necessary. As more powerful, 800 hp (600 kW) railcars were produced, railways tended to use them to haul trailer vehicles, although that practice reduced the fuel saving. By the end of the decade Electro-Motive needed engines more powerful still and therefore had to use cheap fuel. Diesel engines of the period, such as those that Winton had made for some years, were too heavy in relation to their power, and too slow and sluggish for rail use. Their fuel-injection system was erratic and insufficiently robust and Hamilton concluded that a separate injector was needed for each cylinder.In 1930 Electro-Motive Corporation and Winton were acquired by General Motors in pursuance of their aim to develop a diesel engine suitable for rail traction, with the use of unit fuel injectors; Hamilton retained his position as President. At this time, industrial depression had combined with road and air competition to undermine railway-passenger business, and Ralph Budd, President of the Chicago, Burlington \& Quincy Railroad, thought that traffic could be recovered by way of high-speed, luxury motor trains; hence the Pioneer Zephyr was built for the Burlington. This comprised a 600 hp (450 kW), lightweight, two-stroke, diesel engine developed by General Motors (model 201 A), with electric transmission, that powered a streamlined train of three articulated coaches. This train demonstrated its powers on 26 May 1934 by running non-stop from Denver to Chicago, a distance of 1,015 miles (1,635 km), in 13 hours and 6 minutes, when the fastest steam schedule was 26 hours. Hamilton and Budd were among those on board the train, and it ushered in an era of high-speed diesel trains in the USA. By then Hamilton, with General Motors backing, was planning to use the lightweight engine to power diesel-electric locomotives. Their layout was derived not from steam locomotives, but from the standard American boxcar. The power plant was mounted within the body and powered the bogies, and driver's cabs were at each end. Two 900 hp (670 kW) engines were mounted in a single car to become an 1,800 hp (l,340 kW) locomotive, which could be operated in multiple by a single driver to form a 3,600 hp (2,680 kW) locomotive. To keep costs down, standard locomotives could be mass-produced rather than needing individual designs for each railway, as with steam locomotives. Two units of this type were completed in 1935 and sent on trial throughout much of the USA. They were able to match steam locomotive performance, with considerable economies: fuel costs alone were halved and there was much less wear on the track. In the same year, Electro-Motive began manufacturing diesel-electrie locomotives at La Grange, Illinois, with design modifications: the driver was placed high up above a projecting nose, which improved visibility and provided protection in the event of collision on unguarded level crossings; six-wheeled bogies were introduced, to reduce axle loading and improve stability. The first production passenger locomotives emerged from La Grange in 1937, and by early 1939 seventy units were in service. Meanwhile, improved engines had been developed and were being made at La Grange, and late in 1939 a prototype, four-unit, 5,400 hp (4,000 kW) diesel-electric locomotive for freight trains was produced and sent out on test from coast to coast; production versions appeared late in 1940. After an interval from 1941 to 1943, when Electro-Motive produced diesel engines for military and naval use, locomotive production resumed in quantity in 1944, and within a few years diesel power replaced steam on most railways in the USA.Hal Hamilton remained President of Electro-Motive Corporation until 1942, when it became a division of General Motors, of which he became Vice-President.[br]Further ReadingP.M.Reck, 1948, On Time: The History of the Electro-Motive Division of General Motors Corporation, La Grange, Ill.: General Motors (describes Hamilton's career).PJGRBiographical history of technology > Hamilton, Harold Lee (Hal)
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17 Nobel, Immanuel
[br]b. 1801 Gävle, Swedend. 3 September 1872 Stockholm, Sweden[br]Swedish inventor and industrialist, particularly noted for his work on mines and explosives.[br]The son of a barber-surgeon who deserted his family to serve in the Swedish army, Nobel showed little interest in academic pursuits as a child and was sent to sea at the age of 16, but jumped ship in Egypt and was eventually employed as an architect by the pasha. Returning to Sweden, he won a scholarship to the Stockholm School of Architecture, where he studied from 1821 to 1825 and was awarded a number of prizes. His interest then leaned towards mechanical matters and he transferred to the Stockholm School of Engineering. Designs for linen-finishing machines won him a prize there, and he also patented a means of transforming rotary into reciprocating movement. He then entered the real-estate business and was successful until a fire in 1833 destroyed his house and everything he owned. By this time he had married and had two sons, with a third, Alfred (of Nobel Prize fame; see Alfred Nobel), on the way. Moving to more modest quarters on the outskirts of Stockholm, Immanuel resumed his inventions, concentrating largely on India rubber, which he applied to surgical instruments and military equipment, including a rubber knapsack.It was talk of plans to construct a canal at Suez that first excited his interest in explosives. He saw them as a means of making mining more efficient and began to experiment in his backyard. However, this made him unpopular with his neighbours, and the city authorities ordered him to cease his investigations. By this time he was deeply in debt and in 1837 moved to Finland, leaving his family in Stockholm. He hoped to interest the Russians in land and sea mines and, after some four years, succeeded in obtaining financial backing from the Ministry of War, enabling him to set up a foundry and arms factory in St Petersburg and to bring his family over. By 1850 he was clear of debt in Sweden and had begun to acquire a high reputation as an inventor and industrialist. His invention of the horned contact mine was to be the basic pattern of the sea mine for almost the next 100 years, but he also created and manufactured a central-heating system based on hot-water pipes. His three sons, Ludwig, Robert and Alfred, had now joined him in his business, but even so the outbreak of war with Britain and France in the Crimea placed severe pressures on him. The Russians looked to him to convert their navy from sail to steam, even though he had no experience in naval propulsion, but the aftermath of the Crimean War brought financial ruin once more to Immanuel. Amongst the reforms brought in by Tsar Alexander II was a reliance on imports to equip the armed forces, so all domestic arms contracts were abruptly cancelled, including those being undertaken by Nobel. Unable to raise money from the banks, Immanuel was forced to declare himself bankrupt and leave Russia for his native Sweden. Nobel then reverted to his study of explosives, particularly of how to adapt the then highly unstable nitroglycerine, which had first been developed by Ascanio Sobrero in 1847, for blasting and mining. Nobel believed that this could be done by mixing it with gunpowder, but could not establish the right proportions. His son Alfred pursued the matter semi-independently and eventually evolved the principle of the primary charge (and through it created the blasting cap), having taken out a patent for a nitroglycerine product in his own name; the eventual result of this was called dynamite. Father and son eventually fell out over Alfred's independent line, but worse was to follow. In September 1864 Immanuel's youngest son, Oscar, then studying chemistry at Uppsala University, was killed in an explosion in Alfred's laboratory: Immanuel suffered a stroke, but this only temporarily incapacitated him, and he continued to put forward new ideas. These included making timber a more flexible material through gluing crossed veneers under pressure and bending waste timber under steam, a concept which eventually came to fruition in the form of plywood.In 1868 Immanuel and Alfred were jointly awarded the prestigious Letterstedt Prize for their work on explosives, but Alfred never for-gave his father for retaining the medal without offering it to him.[br]Principal Honours and DistinctionsImperial Gold Medal (Russia) 1853. Swedish Academy of Science Letterstedt Prize (jointly with son Alfred) 1868.BibliographyImmanuel Nobel produced a short handwritten account of his early life 1813–37, which is now in the possession of one of his descendants. He also had published three short books during the last decade of his life— Cheap Defence of the Country's Roads (on land mines), Cheap Defence of the Archipelagos (on sea mines), and Proposal for the Country's Defence (1871)—as well as his pamphlet (1870) on making wood a more physically flexible product.Further ReadingNo biographies of Immanuel Nobel exist, but his life is detailed in a number of books on his son Alfred.CM -
18 Zeppelin, Count Ferdinand von
SUBJECT AREA: Aerospace[br]b. 8 July 1838 Konstanz, Germanyd. 8 March 1917 Berlin, Germany[br]German designer of rigid airships, which became known as Zeppelins.[br]Zeppelin served in the German Army and retired with the rank of General in 1890. While in the army, he was impressed by the use of balloons in the American Civil War and during the Siege of Paris. By the time he retired, non-rigid airships were just beginning to make their mark. Zeppelin decided to build an airship with a rigid framework to support the gas bags. Plans were drawn up in 1893 with the assistance of Theodore Kober, an engineer, but the idea was rejected by the authorities. A company was founded in 1898 and construction began. The Luftschiff Zeppelin No. 1 (LZ1) made its first flight on 2 July 1900. Modifications were needed and the second flight took place in October. A reporter called Hugo Eckener covered this and later flights: his comments and suggestions so impressed Zeppelin that Eckener eventually became his partner, publicist, fund-raiser and pilot.The performance of the subsequent Zeppelins gradually improved, but there was limited military interest. In November 1909 a company with the abbreviated name DELAG was founded to operate passenger-carrying Zeppelins. The service was opened by LZ 7 Deutschland in mid-June 1910, and the initial network of Frankfurt, Baden- Baden and Düsseldorf was expanded. Eckener became a very efficient Director of Flight Operations, and by the outbreak of war in 1914 some 35,000 passengers had been carried without any fatalities. During the First World War many Zeppelins were built and they carried out air-raids on Britain. Despite their menacing reputation, they were very vulnerable to attack by fighters. Zeppelin, now in his seventies, turned his attention to large bombers, following the success of Sikorsky's Grand, but he died in 1917. Eckener continued to instruct crews and improve the Zeppelin designs. When the war ended Eckener arranged to supply the Americans with an airship as part of German reparations: this became the Los Angeles. In 1928 a huge new airship, the Graf Zeppelin, was completed and Eckener took command. He took the Graf Zeppelin on many successful flights, including a voyage around the world in 1929.[br]Bibliography1908, Erfahrungen beim Bau von Luftschiffen, Berlin. 1908, Die Eroberung der Luft, Stuttgart.Further ReadingThere are many books on the history of airships, and on Graf von Zeppelin in particular. Of note are: H.Eckener, 1938, Count Zeppelin: The Man and His Work, London.——1958, My Zeppelins, London.P.W.Brooks, 1992, Zeppelin: Rigid Airships 1893–1940, London.T.Nielson, 1955, The Zeppelin Story: The Life of Hugo Eckener, English edn, London (written as a novel in direct speech).M.Goldsmith, 1931, Zeppelin: A Biography, New York.W.R.Nitshe, 1977, The Zeppelin Story, New York.F.Gütschow, 1985, Das Luftschiff, Stuttgart (a record of all the airships).JDSBiographical history of technology > Zeppelin, Count Ferdinand von
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