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1 subject to bending
subject to bending BM, BT, TK biegebeanspruchtEnglish-German dictionary of Architecture and Construction > subject to bending
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2 subject to bending
Техника: подвергать изгибу -
3 bending
2) кривизна4) отклонение (напр, луча)5) метал. бандажирование6) сил. гнутье; моллирование•bending about principal axis — изгиб относительно главной оси;bending combined with torsion — изгиб с кручением;to analyze for bending — рассчитывать на изгиб;to be in bending — работать на изгиб;to be strong in bending — хорошо работать на изгиб;to be weak in bending — плохо работать на изгиб;to fail in bending — разрушаться при изгибе;to resist bending well — хорошо работать на изгиб;to subject to bending — подвергать изгибу;to test by bending — испытывать на изгиб;-
alternating bending
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band bending
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bar bending
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beam bending
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compound bending
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cross bending
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elastic bending
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glass sheet bending
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gravity bending
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hydraulic roll bending
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inelastic bending
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lateral bending
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local bending
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nonuniplanar bending
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ordinary bending
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plastic bending
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pure bending
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reversed bending
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roll bending
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simple bending
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symmetrical bending
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transverse bending
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uniplanar bending
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unsymmetrical bending
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wrinkle bending -
4 subject to a bending test
Макаров: испытывать на изгибУниверсальный англо-русский словарь > subject to a bending test
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5 multiple-subject plate
English-Russian big polytechnic dictionary > multiple-subject plate
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6 member
1) строительный элемент, элемент конструкции2) функциональная единица, часть, звено (машины, механизма)3) деталь (узла, агрегата)4) стержень, элемент заполнения решётки•member in bending — элемент, работающий на изгиб
member in compression — элемент, работающий на сжатие
member in flexure — элемент, работающий на изгиб
member in shear — элемент, работающий на срез
member in tension — элемент, работающий на растяжение
- bent member - bridge member - compression member - cross member - diagonal element member - diaphragm ball member - double-diaphragm member - filler member - filter member - fluid-jet member - idle member - inertia member - joint member - load-bearing member - measuring member - pneumatic member - preassembled member - resilient member - sealing member - spool member - stiffening member - stream-interacting member - structural member - supported member - three-diaphragm member - throwaway member - tie member - tubular member - vertical web member - web membermember in torsion — элемент, работающий на кручение
* * *- member of structuremembers designed for eccentric loading — элементы, рассчитанные на внецентренную нагрузку
- aluminum load-bearing member
- axial force member
- bent member
- boom member
- bottom chord member
- boundary member
- bow member
- bridge member
- cold-formed steel structural member
- composite member
- compression member
- cross member
- cut member
- fabricated wood members
- flexural member
- fully fixed member
- hybrid flexural member
- light-gauge cold-formed steel structural member
- main member
- main chord members
- multielement member
- plastically designed member
- preassembled member
- precast member
- primary member
- redundant member
- rupture member
- sealed tubular member
- secondary member
- segmental member
- spanning member
- steel framing member
- stiffening member
- stress-bearing structural member
- stressed member
- structural member
- structural member acted upon by forces
- structural member subjected to load
- structural steel member
- supported member
- supporing member
- tension member
- top frame member
- transverse member
- truss members
- tubular member
- unbonded member
- unrestrained member
- unsafe structural member
- unstable structural member
- unstiffened member
- vertical member
- web member -
7 Breguet, Abraham-Louis
SUBJECT AREA: Horology[br]baptized 10 January 1747 Neuchâtel, Switzerlandd. 17 September 1823 Paris, France[br]Swiss clock-and watchmaker who made many important contributions to horology.[br]When Breguet was 11 years old his father died and his mother married a Swiss watchmaker who had Paris connections. His stepfather introduced him to horology and this led to an apprenticeship in Paris, during which he also attended evening classes in mathematics at the Collège Mazarin. In 1775 he married and set up a workshop in Paris, initially in collaboration with Xavier Gide. There he established a reputation among the aristocracy for elegant and innovative timepieces which included a perpétuelle, or self-winding watch, which he developed from the ideas of Perrelet. He also enjoyed the patronage of Marie Antoinette and Louis XVI. During the French Revolution his life was in danger and in 1793 he fled to Neuchâtel. The two years he spent there comprised what was intellectually one of his most productive periods and provided many of the ideas that he was able to exploit after he had returned to Paris in 1795. By the time of his death he had become the most prestigious watchmaker in Europe: he supplied timepieces to Napoleon and, after the fall of the Empire, to Louis XVIII, as well as to most of the crowned heads of Europe.Breguet divided his contributions to horology into three categories: improvements in appearance and functionality; improvements in durability; and improvements in timekeeping. His pendule sympathique was in the first category and consisted of a clock which during the night set a watch to time, regulated it and wound it. His parachute, a spring-loaded bearing, made a significant contribution to the durability of a watch by preventing damage to its movement if it was dropped. Among the many improvements that Breguet made to timekeeping, two important ones were the introduction of the overcoil balance spring and the tourbillon. By bending the outside end of the balance spring over the top of the coils Breguet was able to make the oscillations of the balance isochronous, thus achieving for the flat spring what Arnold had already accomplished for the cylindrical balance spring. The timekeeping of a balance is also dependent on its position, and the tourbillon was an attempt to average-out positional errors by placing the balance wheel and the escapement in a cage that rotated once every minute. This principle was revived in a simplified form in the karussel at the end of the nineteenth century.[br]Principal Honours and DistinctionsHorloger de la marine 1815. Chevalier de la Légion d'honneur 1815.BibliographyBreguet gathered information for a treatise on horology that was never published but which was later plagiarized by Louis Moinet in his Traité d'horlogerie, 1848.Further ReadingG.Daniels, 1974, The An of Breguet, London (an account of his life with a good technical assessment of his work).DV -
8 Breuer, Marcel Lajos
[br]b. 22 May 1902 Pécs, Hungaryd. 1 July 1981 New York (?), USA[br]Hungarian member of the European Bauhaus generation in the 1920s, who went on to become a leader in the modern school of architectural and furniture design in Europe and the United States.[br]Breuer began his student days following an art course in Vienna, but joined the Bauhaus at Weimar, where he later graduated, in 1920. When Gropius re-established the school in purpose-built structures at Dessau, Breuer became a member of the teaching staff in charge of the carpentry and furniture workshops. Much of his time there was spent in design and research into new materials being applied to furniture and interior decoration. The essence of his contribution was to relate the design of furniture to industrial production; in this field he developed the tubular-steel structure, especially in chair design, and experimented with aluminium as a furniture material as well as pieces of furniture made up from modular units. His furniture style was characterized by an elegance of line and a careful avoidance of superfluous detail. By 1926 he had furnished the Bauhaus with such furniture in chromium-plated steel, and two years later had developed a cantilevered chair.Breuer left the Bauhaus in 1928 and set up an architectural practice in Berlin. In the early 1930s he also spent some time in Switzerland. Notable from these years was his Harnischmacher Haus in Wiesbaden and his apartment buildings in the Dolderthal area of Zurich. His architectural work was at first influenced by constructivism, and then by that of Le Corbusier (see Charles-Edouard Jeanneret). In 1935 he moved to England, where in partnership with F.R.S. Yorke he built some houses and continued to practise furniture design. The Isokon Furniture Co. commissioned him to develop ideas that took advantage of the new bending and moulding processes in laminated wood, one result being his much-copied reclining chair.In 1937, like so many of the European architectural refugees from Nazism, he found himself under-occupied due to the reluctance of English clients to embrace the modern architectural movement. He went to the United States at Gropius's invitation to join him as a professor at Harvard. Breuer and Gropius were influential in training a new generation of American architects, and in particular they built a number of houses. This partnership ended in 1941 and Breuer set up practice in New York. His style of work from this time on was still modern, but became more varied. In housing, he adapted his style to American needs and used local materials in a functional manner. In the Whitney Museum (1966) he worked in a sculptural, granite-clad style. Often he utilized a bold reinforced-concrete form, as in his collaboration with Pier Luigi Nervi and Bernard Zehrfuss in the Paris UNESCO Building (1953–8) and the US Embassy in the Hague (1954–8). He displayed his masterly handling of poured concrete used in a strikingly expressionistic, sculptural manner in his St John's Abbey (1953–61) in Collegeville, Minnesota, and in 1973 his Church of St Francis de Sale in Michigan won him the top award of the American Institute of Architects.[br]Principal Honours and DistinctionsAmerican Institute of Architects Medal of Honour 1964, Gold Medal 1968. Jefferson Foundation Medal 1968.Bibliography1955, Sun and Shadow, the Philosophy of an Architect, New York: Dodd Read (autobiography).Further ReadingC.Jones (ed.), 1963, Marcel Breuer: Buildings and Projects 1921–1961, New York: Praeger.T.Papachristou (ed.), 1970, Marcel Breuer: New Buildings and Projects 1960–1970, New York: Praeger.DY -
9 Evans, Oliver
SUBJECT AREA: Agricultural and food technology[br]b. 13 September 1755 Newport, Delaware, USAd. 15 April 1819 New York, USA[br]American millwright and inventor of the first automatic corn mill.[br]He was the fifth child of Charles and Ann Stalcrop Evans, and by the age of 15 he had four sisters and seven brothers. Nothing is known of his schooling, but at the age of 17 he was apprenticed to a Newport wheelwright and wagon-maker. At 19 he was enrolled in a Delaware Militia Company in the Revolutionary War but did not see active service. About this time he invented a machine for bending and cutting off the wires in textile carding combs. In July 1782, with his younger brother, Joseph, he moved to Tuckahoe on the eastern shore of the Delaware River, where he had the basic idea of the automatic flour mill. In July 1782, with his elder brothers John and Theophilus, he bought part of his father's Newport farm, on Red Clay Creek, and planned to build a mill there. In 1793 he married Sarah Tomlinson, daughter of a Delaware farmer, and joined his brothers at Red Clay Creek. He worked there for some seven years on his automatic mill, from about 1783 to 1790.His system for the automatic flour mill consisted of bucket elevators to raise the grain, a horizontal screw conveyor, other conveying devices and a "hopper boy" to cool and dry the meal before gathering it into a hopper feeding the bolting cylinder. Together these components formed the automatic process, from incoming wheat to outgoing flour packed in barrels. At that time the idea of such automation had not been applied to any manufacturing process in America. The mill opened, on a non-automatic cycle, in 1785. In January 1786 Evans applied to the Delaware legislature for a twenty-five-year patent, which was granted on 30 January 1787 although there was much opposition from the Quaker millers of Wilmington and elsewhere. He also applied for patents in Pennsylvania, Maryland and New Hampshire. In May 1789 he went to see the mill of the four Ellicot brothers, near Baltimore, where he was impressed by the design of a horizontal screw conveyor by Jonathan Ellicot and exchanged the rights to his own elevator for those of this machine. After six years' work on his automatic mill, it was completed in 1790. In the autumn of that year a miller in Brandywine ordered a set of Evans's machinery, which set the trend toward its general adoption. A model of it was shown in the Market Street shop window of Robert Leslie, a watch-and clockmaker in Philadelphia, who also took it to England but was unsuccessful in selling the idea there.In 1790 the Federal Plant Laws were passed; Evans's patent was the third to come within the new legislation. A detailed description with a plate was published in a Philadelphia newspaper in January 1791, the first of a proposed series, but the paper closed and the series came to nothing. His brother Joseph went on a series of sales trips, with the result that some machinery of Evans's design was adopted. By 1792 over one hundred mills had been equipped with Evans's machinery, the millers paying a royalty of $40 for each pair of millstones in use. The series of articles that had been cut short formed the basis of Evans's The Young Millwright and Miller's Guide, published first in 1795 after Evans had moved to Philadelphia to set up a store selling milling supplies; it was 440 pages long and ran to fifteen editions between 1795 and 1860.Evans was fairly successful as a merchant. He patented a method of making millstones as well as a means of packing flour in barrels, the latter having a disc pressed down by a toggle-joint arrangement. In 1801 he started to build a steam carriage. He rejected the idea of a steam wheel and of a low-pressure or atmospheric engine. By 1803 his first engine was running at his store, driving a screw-mill working on plaster of Paris for making millstones. The engine had a 6 in. (15 cm) diameter cylinder with a stroke of 18 in. (45 cm) and also drove twelve saws mounted in a frame and cutting marble slabs at a rate of 100 ft (30 m) in twelve hours. He was granted a patent in the spring of 1804. He became involved in a number of lawsuits following the extension of his patent, particularly as he increased the licence fee, sometimes as much as sixfold. The case of Evans v. Samuel Robinson, which Evans won, became famous and was one of these. Patent Right Oppression Exposed, or Knavery Detected, a 200-page book with poems and prose included, was published soon after this case and was probably written by Oliver Evans. The steam engine patent was also extended for a further seven years, but in this case the licence fee was to remain at a fixed level. Evans anticipated Edison in his proposal for an "Experimental Company" or "Mechanical Bureau" with a capital of thirty shares of $100 each. It came to nothing, however, as there were no takers. His first wife, Sarah, died in 1816 and he remarried, to Hetty Ward, the daughter of a New York innkeeper. He was buried in the Bowery, on Lower Manhattan; the church was sold in 1854 and again in 1890, and when no relative claimed his body he was reburied in an unmarked grave in Trinity Cemetery, 57th Street, Broadway.[br]Further ReadingE.S.Ferguson, 1980, Oliver Evans: Inventive Genius of the American Industrial Revolution, Hagley Museum.G.Bathe and D.Bathe, 1935, Oliver Evans: Chronicle of Early American Engineering, Philadelphia, Pa.IMcN -
10 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 -
11 Spooner, Charles Easton
[br]b. 1818 Maentwrog, Merioneth (now Gwynedd), Walesd. 18 November 1889 Portmadoc (now Porthmadog), Wales[br]English engineer, pioneer of narrow-gauge steam railways.[br]At the age of 16 Charles Spooner helped his father, James, to build the Festiniog Railway, a horse-and-gravity tramroad; they maintained an even gradient and kept costs down by following a sinuous course along Welsh mountainsides and using a very narrow gauge. This was probably originally 2 ft 1 in. (63.5 cm) from rail centre to rail centre; with the introduction of heavier, and therefore wider, rails the gauge between them was reduced and was eventually standardized at 1 ft 11 1/2 in (60 cm). After James Spooner's death in 1856 Charles Spooner became Manager and Engineer of the Festiniog Railway and sought to introduce steam locomotives. Widening the gauge was impracticable, but there was no precedent for operating a public railway of such narrow gauge by steam. Much of the design work for locomotives for the Festiniog Railway was the responsibility of C.M.Holland, and many possible types were considered: eventually, in 1863, two very small 0–4–0 tank locomotives, with tenders for coal, were built by George England.These locomotives were successful, after initial problems had been overcome, and a passenger train service was introduced in 1865 with equal success. The potential for economical operation offered by such a railway attracted widespread attention, the more so because it had been effectively illegal to build new passenger railways in Britain to other than standard gauge since the Gauge of Railways Act of 1846.Spooner progressively improved the track, alignment, signalling and rolling stock of the Festiniog Railway and developed it from a tramroad to a miniaturized main line. Increasing traffic led to the introduction in 1869 of the 0–4–4–0 double-Fairlie locomotive Little Wonder, built to the patent of Robert Fairlie. This proved more powerful than two 0–4–0s and impressive demonstrations were given to engineers from many parts of the world, leading to the widespread adoption of narrow-gauge railways. Spooner himself favoured a gauge of 2 ft 6 in. (76 cm) or 2 ft 9 in. (84 cm). Comparison of the economy of narrow gauges with the inconvenience of a break of gauge at junctions with wider gauges did, however, become a continuing controversy, which limited the adoption of narrow gauges in Britain.Bogie coaches had long been used in North America but were introduced to Britain by Spooner in 1872, when he had two such coaches built for the Festiniog Railway. Both of these and one of its original locomotives, though much rebuilt, remain in service.Spooner, despite some serious illnesses, remained Manager of the Festiniog Railway until his death.[br]Bibliography1869, jointly with G.A.Huddart, British patent no. 1,487 (improved fishplates). 1869, British patent no. 2,896 (rail-bending machinery).1871, Narrow Gauge Railways, E. \& F.N.Spon (includes his description of the Festiniog Railway, reports of locomotive trials and his proposals for narrow-gauge railways).Further ReadingJ.I.C.Boyd, 1975, The Festiniog Railway, Blandford: Oakwood Press; C.E.Lee, 1945, Narrow-Gauge Railways in North Wales, The Railway Publishing Co. (both give good descriptions of Spooner and the Festiniog Railway).C.Hamilton Ellis, 1965, Railway Carriages in the British Isles, London: George Allen \& Unwin, pp. 181–3. Pihl, Carl Abraham.PJGRBiographical history of technology > Spooner, Charles Easton
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12 Wöhler, August
SUBJECT AREA: Metallurgy[br]b. 22 June 1819 Soltau, Germanyd. 21 June 1914 Hannover, Germany[br]German railway engineer who first established the fatigue fracture of metals.[br]Wöhler, the son of a schoolteacher, was born at Soltau on the Luneburg Heath and received his early education at his father's school, where his mathematical abilities soon became apparent. He completed his studies at the Technical High School, Hannover.In 1840 he obtained a position at the Borsig Engineering Works in Berlin and acquired there much valuable experience in railway technology. He trained as an engine driver in Belgium and in 1843 was appointed as an engineer to the first Hannoverian Railway, then being constructed between Hannover and Lehrte. In 1847 he became Chief Superintendent of rolling stock on the Lower Silesian-Brandenhurg Railway, where his technical abilities influenced the Prussian Minister of Commerce to appoint him to a commission set up to investigate the reasons for the unusually high incidence of axle failures then being encountered on the railways. This was in 1852, and by 1854, when the Brandenburg line had been nationalized, Wöhler had already embarked on the long, systematic programme of mechanical testing which eventually provided him with a clear insight into the process of what is now referred to as "fatigue failure". He concentrated initially on the behaviour of machined iron and steel specimens subjected to fluctuating direct, bending and torsional stresses that were imposed by testing machines of his own design.Although Wöhler was not the first investigator in this area, he was the first to recognize the state of "fatigue" induced in metals by the repeated application of cycles of stress at levels well below those that would cause immediate failure. His method of plotting the fatigue stress amplitude "S" against the number of stress cycles necessary to cause failure "N" yielded the well-known S-N curve which described very precisely the susceptibility to fatigue failure of the material concerned. Engineers were thus provided with an invaluable testing technique that is still widely used in the 1990s.Between 1851 and 1898 Wöhler published forty-two papers in German technical journals, although the importance of his work was not initially fully appreciated in other countries. A display of some of his fracture fatigue specimens at the Paris Exposition in 1867, however, stimulated a short review of his work in Engineering in London. Four years later, in 1871, Engineering published a series of nine articles which described Wöhler's findings in considerable detail and brought them to the attention of engineers. Wöhler became a member of the newly created management board of the Imperial German Railways in 1874, an appointment that he retained until 1889. He is also remembered for his derivation in 1855 of a formula for calculating the deflections under load of lattice girders, plate girders, and other continuous beams resting on more than two supports. This "Three Moments" theorem appeared two years before Clapeyron independently advanced the same expression. Wöhler's other major contribution to bridge design was to use rollers at one end to allow for thermal expansion and contraction.[br]Bibliography1855, "Theorie rechteckiger eiserner Brückenbalken", Zeitschrift für Bauwesen 5:122–66. 1870, "Über die Festigkeitversuche mit Eisen und Stahl", Zeitschrift für Bauwesen 20:73– 106.Wöhler's experiments on the fatigue of metals were reported in Engineering (1867) 2:160; (1871) 11:199–200, 222, 243–4, 261, 299–300, 326–7, 349–50, 397, 439–41.Further ReadingR.Blaum, 1918, "August Wöhler", Beiträge zur Geschichte der Technik und Industrie 8:35–55.——1925, "August Wöhler", Deutsches biographisches Jahrbuch, Vol. I, Stuttgart, pp. 103–7.K.Pearson, 1890, "On Wöhler's experiments on alternating stress", Messeng. Math.20:21–37.J.Gilchrist, 1900, "On Wöhler's Laws", Engineer 90:203–4.ASD -
13 stress
1) напряжение || напрягать2) натяжение3) усилие; нагрузка•to relieve a stress — снимать напряжение, разгружать
to subject to stress — напрягать, подвергать напряжению
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14 plate
1. пластина; плита2. стереотип; гальваностереотип; стереотипировать; изготовлять гальваностереотип3. фотопластинка4. наносить гальваническое покрытие5. гравюра; эстамп; вкладная иллюстрация6. экслибрис7. удалять краску с пробельных элементов формы8. вымывать неэкспонированные участки фотоформыadhesive mounted plate — печатная форма, закреплённая приклеиванием
9. алюминиевая офсетная формная пластина10. алюминиевая офсетная печатная формаplate thickness — толщина пластины, толщина печатной формы
11. алюминиевая формная пластина12. алюминиевая печатная формаaqueous-developed plate — печатная форма, получаемая с использованием водного проявления
Ben Day plate — клише, в котором часть элементов изображения создана тангированием
13. изогнутая стереотипная печатная форма14. биметаллическая формная пластина15. биметаллическая печатная формаblank plate — пластина, подготовленная для гравирования
bridge plate — направляющий мостик, направляющая пластина
chalk plate — стальная пластина, покрытая мелом
16. фототипная печатная форма17. фототипная вкладная иллюстрация18. многокрасочная иллюстрация19. клише для многокрасочной печати; цветоделённая печатная формаcolor line plate — гальваностереотип, подлитый способом «колор лайн»
combination halftone-and-line plate — смешанная печатная форма, содержащая растровые и штриховые изображения
computer output printed paper plate — бумажная печатная форма с выходными данными, полученными из ЭВМ
conversion plate — форма глубокой печати, изготовленная с офсетной фотоформы
20. круглый стереотип21. изогнутая печатная формаdata plate — табличка основных параметров; фирменная табличка
deep-etch plate — офсетная печатная форма с углублёнными печатающими элементами, форма глубокого офсета
22. высекальный штамп23. штемпель, штемпельная пластина, штемпельная формаdiffusion transfer plate — форма, полученная способом диффузионного переноса изображения
direct image plate — форма с прямым изображением ; печатная форма, полученная прямым копированием
24. распашная иллюстрация; распашной вкладной лист25. форма для печатания распашной иллюстрацииduplicate plate — дубликат клише, форма-дубликат; вторичная печатная форма, стереотипная печатная форма, стереотип
26. форма, полученная гравированием27. стапельный стол самонаклада28. подающая планка; толкатель самонаклада29. плоская печатная форма30. слабая печатная формаplate copy — копия, полученная с формы
31. слабый диапозитив или негативflexo plate — флексографская печатная форма, форма флексографской печати
32. кассета фальцевальной машины33. сфальцованная иллюстрация34. неподвижный бортик, пластина для долевой загибки ткани35. рабочая пластина переднего упора36. передний упор37. полосная вкладная иллюстрация38. вкладной лист, имеющий формат страницыhalftone plate — растровая печатная форма; растровое клише
halftone color plate — растровое клише для многокрасочной печати; растровая цветоделённая печатная форма
hand-engraved plate — форма глубокой печати, полученная ручным способом
hard edges plate — растровое клише, дающее более тёмное изображение по краям
high speed projection plate — формная пластина высокой светочувствительности для проекционной съёмки
imaged plate — копия, экспонированная формная пластина
image receiving plate — пластина, воспринимающая изображение
ink plate — раскатная плита, красочная плита
laminated plate — ламинированная формная пластина; тонкая листовая форма
line plate — штриховая печатная форма; штриховое клише
39. форма плоской печати40. офсетная формная пластинаlithographic electrostatic printing plate — офсетная печатная форма, изготовленная электростатическим способом
41. магниевая формная пластина42. магниевая печатная формаmagnetic plate — печатная форма с металлической подложкой для крепления на магнитном формном цилиндре
43. эталонная печатная форма44. шрифтоноситель на пластинеminus plate — печатная форма, на которой печатающие элементы расположены ниже непечатающих
45. полиметаллическая формная пластина46. полиметаллическая офсетная форма47. выворотная форма48. формная пластина с негативным копировальным слоем49. печатная форма негативного копирования50. фотополимерная форма высокой печати типа «найлопринт»51. фотополимеризующаяся пластина типа «найлопринт»offset paper plate — бумажная офсетная форма, офсетная форма на гидрофильной бумаге
52. бумажная формная пластина53. бумажная печатная формаpattern plate — оригинальная форма, предназначенная для матрицирования
photodirect plate — бумажная формная пластина с ортохроматическим покрытием на основе галоидного серебра
54. фотополимерная пластина55. фотополимерная печатная форма56. печатная форма, полученная на пластмассовой пластине прямым способом, полимерная печатная формаswash plate — диск, насаженный на ось не под прямым углом
57. пластмассовый стереотипplus plate — печатная форма, на которой печатающие элементы возвышаются над непечатающими
58. диапозитив на фотопластинке59. формная пластина с позитивным копировальным слоемguide plate — направляющая пластина; кондуктор
60. печатная форма позитивного копированияpositive-acting plate — офсетная пластина, имеющая после копирования видимое прямое изображение
positive working printing plate — позитивная формная пластина, формная пластина позитивного копирования
powder etched plate — печатная форма, вытравленная с припудриванием
powderless etched plate — печатная форма, вытравленная без припудривания
pressing plate — прессующая губка, прессующая пластина
press-ready plate — форма, готовая к печати
61. формная пластина62. форма для многокрасочного печатания63. репродукционная фотопластинка64. перфорированная печатная форма; печатная форма с перфорированными краями65. форма с пробитыми приводочными отверстиями66. планка механизма бокового равнения67. металлическая пластина на переднем краю накладного столаregistered plate — форма, установленная в положение точной приводки
68. ребристый стереотип69. ребристая печатная формаscan plate — клише, изготовленное на фотоэлектрогравировальной машине
70. клише, имеющее растр на штрихах и заливках рисунка71. растровое клише72. очувствлённая формная пластина73. светочувствительная фотопластинкаshort-lived plate — печатная форма, имеющая малую тиражестойкость
stereotype plate — стереотип, стереотипная печатная форма, вторичная печатная форма
74. офсетная формная пластина субтрактивного типа75. форма позитивного копированияtension lock-up plate — печатная форма, закреплённая натягом
test printing plate — контрольная печатная форма, тест-форма, печатная форма для контрольных испытаний
tipped-in plate — приклеенная иллюстрация, вклейка
76. триметаллическая формная пластина77. триметаллическая печатная формаtub-grained plate — пластина, зернённая шариками
water-cooled plate — форма, охлаждаемая водой, форма с водяным охлаждением
water-developed plate — копия, проявляемая водой
web supporting plate — лентонаправляющая пластина; пластина, служащая опорой для ленты
78. офсетная пластина для изготовления формы способом натирания79. офсетная печатная форма, изготовленная способом натиранияplate supporting surface — поверхность, несущая печатную форму
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15 roller
1. валок; вал, каток; валик; ролик; бегунок; цилиндр или барабан2. матричный каландрadjusting roller — валик, стабилизирующий подачу
all-season roller — валик, сохраняющий свои размеры при изменении температуры и влажности окружающей среды
3. прижимный валик, пресс-цилиндр4. подающие ролики5. опорный валикroller setting — регулировка валиков; установка валиков
6. фальцевальный валик, фальцвалик7. лентонаправляющий валик8. валики, обжимающие сфальцованную на воронке лентуbreak-out roller — отрывной валик, валик для отрыва по месту перфорации
9. лентоподающий валик, ролик лентоподающей пары; лентопроводящий валик; лентоведущий ролик10. самоустанавливающийся валик11. амортизационный валикcovered roller — облицованный валик, валик с покрытием
12. брит. передаточный валик красочного аппарата дукторного типаdampening system rollers — увлажняющий аппарат, валики увлажняющего аппарата
13. распределительный валик14. раскатной валик; раскатной цилиндрdoctor roller — ракель, имеющий форму валика или стержня; валик, снимающий избыток краски или влаги
15. тянущий валик; приводной ролик16. бумагопроводящий валик17. периодически действующий лентоподающий валикduct roller — дуктор, дукторный вал
dusting roller — пылеснимающий валик, валик для очистки от пыли
equalizer roller — стабилизирующий валик; выравнивающий валик; амортизирующий валик
18. накатной валик19. подающий валик, подающий ролик, ролик подающей пары; проводящий валик, ведущий роликcoating roller — валик, наносящий покрытие
20. валики накопителя ленты21. валики, установленные зигзагообразноfilmer roller — валик, несущий тонкий слой
flexible doctor roller — эластичный ракель, имеющий форму валика или стержня
fold roller — фальцевальный валик, фальцвалик
folding roller — фальцевальный валик, фальцвалик
forming roller — фальцевальный валик, фальцвалик
forwarder roller — ведущий валик; транспортирующий ролик
fountain roller — дуктор, дукторный вал
22. валик, дозирующий подачу краскиsensor roller — валик, несущий датчик
23. накатной валик красочного аппаратаink mist suppression roller — валик, предотвращающий образование красочного тумана
ink-receiving roller — краскоприёмный валик; приёмный цилиндр раскатной группы красочного аппарата
ink-source roller — дуктор, дукторный вал
lithographic roller — нажимной валик, печатный цилиндр
monitoring roller — дозирующий валик; контрольный валик
nip rollers — пара контактирующих валиков; листопроводящая или лентопроводящая пара валиков
over-speed roller — валик, вращающийся с повышенной скоростью
paper guide roller — бумаговедущий валик, бумагонаправляющий валик
compensator roller — валик, стабилизирующий подачу
glazed roller — гладкий валик; полированный валик
24. плавающий валик25. передаточный валик красочного аппаратаrubber-covered roller — валик, облицованный резиной
26. дуктор, дукторный вал27. отделяющий роликplate inking roller — накатной красочный валик, накатной валик красочного аппарата
porous ink roller — валик с пористой поверхностью, пропитанной краской; красочный валик, имеющий пористое покрытие
porous-type ink supply roller — краскоподающий валик, имеющий пористое покрытие
porous-volume compressible roller — валик, сжимающийся в объёме
power roller — ведущий валик; ведущий ролик; валик, используемый для привода
power roller — приводной цилиндр, цилиндр, имеющий принудительный привод
28. валик печатной машины29. прижимный валик, прижимный роликpressure roller — прижимный валик, нажимной цилиндр, пресс-цилиндр
30. печатный валик; печатный цилиндрribbed roller — рифленый валец; рифленый вал
31. формный валик; формный цилиндрchill roller — охлаждающий валик; охлаждающий цилиндр
32. приёмный бумаговедущий роликreceiving roller — приёмный валик, валик на набегающей стороне
reciprocating roller — цилиндр, имеющий осевое перемещение
33. обрезиненный передаточный валик34. обрезиненный периодически действующий лентоподающий валикsand-blasted roller — валик, прошедший пескоструйную обработку
screen roller for paper converting and coating machines — растрированный валик для бумагоперерабатывающих машин и машин для нанесения покрытий
35. грузовой красочный валик; валик, накатывающий краску под действием собственного веса36. автоматически действующий накатной красочный валик37. валик, несущий датчик38. валик, выполняющий роль датчика в системе автоматического регулирования натяжения ленты39. прозрачный валик для измерения толщины слоя краскиseparation roller — отделяющий валик, листоотделяющий ролик
shot-peened roller — валик, поверхность которого упрочнена дробеструйной обработкой
40. валик обжимного устройства41. разглаживающий валикsqueegee roller — отжимный валик, резиновый валик
42. прижимный валик; прижимный цилиндр43. стальной цилиндрsubject roller — формный валик; формный цилиндр
take-out roller — отделительный валик; выводной валик
tension roller — натяжной валик, валик для регулирования натяжения ленты
top roller — лентоведущий валик, лентоведущий валик
tracking roller — валик, на который отмарывает краска
stationary drum roller — раскатной цилиндр, не имеющий осевого перемещения
44. валик для переноса изображенияtransporting roller — транспортирующий цилиндр, передаточный барабан
trough roller — валик, купающийся в корыте
45. раскатной цилиндрvibrating distributor roller — раскатной цилиндр, имеющий осевое перемещение
46. передаточный валикvolume-compressible roller — валик, сжимающийся в объёме
washing roller — смывочный валик; валик для удаления загрязнения
water-cooled roller — валик, охлаждаемый водой
47. валик для удаления краски с пробельных элементов формы глубокой печати48. пара контактирующих валиков; листопроводящая или лентопроводящая пара валиковwithdrawing roller — подающий валик; тянущий валик
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16 roller
1) валок; вал, каток; валик; ролик; бегунок; (вращающийся) цилиндр или барабан2) матричный каландрАнгло-русский словарь по полиграфии и издательскому делу > roller
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17 around
1. adverb1) (on every side)[all] around — überall
he waved his arms around — er ruderte mit den Armen
2) (round) herumpass the hat around — den Hut herumgehen lassen
get around to doing something — [endlich] einmal daran denken, etwas zu tun
[have a] look around — sich [ein bisschen] umsehen
3) (coll.): (near) in der Nähewe'll always be around when you need us — wir werden immer da sein, wenn du uns brauchst
4) (coll.): (in existence) vorhandenthere's not much leather around these days — zur Zeit gibt es nur wenig Leder
5) (in various places)ask/look around — herumfragen/-schauen
2. prepositionhe's been around — (fig.) er ist viel herumgekommen
1) um [... herum]darkness closed in around us — die Dunkelheit umfing uns (geh.) od. schloss uns ein
around the back of the house — (position) hinter dem Haus; (direction) hinter das Haus
2) (here and there in)3) (approximately at)I saw him somewhere around the station — ich habe ihn irgendwo am Bahnhof gesehen
4) (approximately equal to) ungefähr* * *1. preposition, adverb1) (on all sides of or in a circle about (a person, thing etc): Flowers grew around the tree; They danced around the fire; There were flowers all around.) um...herum2) (here and there (in a house, room etc): Clothes had been left lying around (the house); I wandered around.) herum2. preposition 3. adverb1) (in the opposite direction: Turn around!) herum2) (near-by: If you need me, I'll be somewhere around.) in der Nähe* * *[əˈraʊnd]1. (reversed) herumthe right/wrong way \around richtig/falsch herumto turn \around sich akk umdrehen2. (circling) in Kreisenthat tune has been going \around and \around in my head diese Melodie geht mir nicht aus dem Kopf3. (along edge)the tree measures ten metres \around der Baum hat einen Umfang von zehn Metern4. (on all sides) rund[her]um, ringsherumall \around überallto come from miles \around von weit her [zusammen]kommento wave one's arms \around mit den Armen [herum]fuchteln famto get \around herumkommen famword got \around that... es ging das Gerücht, dass...to [have a] look \around sich akk umsehento show sb \around jdn herumführento come \around vorbeikommen8. (aimlessly)to walk \around herumgehen, umhergehen9. (ready)to get \around to sth endlich zu etw dat kommento get \around to doing sth endlich dazu kommen, etw zu tun10. (present) in der Nähewill you be \around next week? bist du nächste Woche da?there's a lot of flu \around at the moment die Grippe grassiert im Augenblickmobile phones have been \around for quite a while Handys gibt es schon länger5 points \around 5 % Report/Deport fachspr12.II. prepall \around sth um etw akk herumthere are trees all \around the house um das ganze Haus herum stehen Bäume\around the back of sth hinter etw akk/dat4. (along edge)they've travelled all \around the country sie haben das ganze Land bereistshe looked \around the house sie sah sich im Haus umwe have branches \around the world wir haben Filialen in der ganzen Weltfrom all \around the world aus aller Welt6. (idly)to lie/sit/stand \around herumliegen/-sitzen/-stehen8. (based on)9. (avoiding)there seems to be no way \around this problem es führt wohl kein Weg um dieses Problem herum* * *[ə'raʊnd]1. advherum, rum (inf)a house with gardens all around — ein von Gärten umgebenes Haus, ein Haus mit Gärten ringsherum
I looked all around — ich sah mich nach allen Seiten um
they came from all around — sie kamen aus allen Richtungen or von überall her
slowly, he turned around — er drehte sich langsam um
to stroll/travel around — herumschlendern/-reisen
if you want me I'll be around — ich bin da, falls du mich brauchst
he must be around somewhere — er muss hier irgendwo sein or stecken
I didn't know you were around — ich wusste nicht, dass du hier bist
it's been around for ages —
2. prep2)(= in, through)
to wander around the city — durch die Stadt spazierento travel around Scotland —
I left it around your office somewhere —
3) (= approximately) (with date) um; (with time of day) gegen; (with weight, price) etwa, um die (inf) → also academic.ru/63126/round">roundSee:→ also round* * *around [əˈraʊnd]A adv2. umher…, (in der Gegend) herum…:I’ve been around umga) ich bin viel herumgekommenb) ich habe schon viel erlebt;I’ve been around a lot longer than he has umg ich hab schon einige Jahre mehr auf dem Buckel als er; → look around, etc3. umga) in der Näheb) da, zur Hand:have you seen my car keys around? hast du irgendwo meine Autoschlüssel gesehen?;stick around bleib da oder in der Nähe!;still around? du bist ja noch da!4. umga) vorhandenb) erhältlich:it has been around for many years das gibt es schon seit vielen JahrenB präp2. in (dat) … herum…:3. umg ungefähr, etwa, um … herum:4. umg (nahe) bei, in (dat) … herum:stay around the house sich im oder beim Haus aufhalten* * *1. adverb[all] around — überall
2) (round) herumget around to doing something — [endlich] einmal daran denken, etwas zu tun
[have a] look around — sich [ein bisschen] umsehen
3) (coll.): (near) in der Nähewe'll always be around when you need us — wir werden immer da sein, wenn du uns brauchst
4) (coll.): (in existence) vorhandenask/look around — herumfragen/-schauen
2. prepositionhe's been around — (fig.) er ist viel herumgekommen
1) um [... herum]darkness closed in around us — die Dunkelheit umfing uns (geh.) od. schloss uns ein
around the back of the house — (position) hinter dem Haus; (direction) hinter das Haus
4) (approximately equal to) ungefähr* * *adv.herum adv.ringsherum adv.rund um adv.um... herum adv.ungefähr adv. -
18 rule
1. n1) правило; устав; норма; право2) власть; владычество; господство; правление; управление•to accept rules — одобрять / признавать правила
to adhere to a rule — придерживаться правила, соблюдать правило
to apply rules to smb / smth — применять правила к кому-л. / чему-л.
to be subject to / to be under foreign rule — находиться под иностранным владычеством
to breach / to break a rule — нарушать правило
to comply with / to conform to a rule — придерживаться правила, соблюдать правило
to emerge from military to civilian rule — переходить от правления военных к гражданскому правительству
to frame rules — вырабатывать / определять / составлять правила
to impose / to introduce smb's rule — вводить чье-л. правление
to maintain rules — поддерживать / соблюдать правила
to note an infringement / a violation of the rules — констатировать нарушение правил
to obey / to observe a rule — придерживаться правила, соблюдать правило
to overthrow / to throw off smb's rule — свергать кого-л.
to put a territory under direct rule from... — ставить территорию под прямое управление из...
to put an end to smb's rule — покончить с чьим-л. господством, положить конец чьему-л. господству
to remain under smb's rule — оставаться под чьим-л. управлением
to revert to smb's rule — возвращаться под чье-л. управление
to stick to a rule — придерживаться правила, соблюдать правило
to submit to the rules — подчиняться правилам, придерживаться правил
- abidance by the rulesto suffer from smb's rule — страдать от чьего-л. гнета
- advent of smb's rule
- against international rules of behavior
- alien rule
- arbitrary rule
- army rules
- authoritarian rule
- autocratic rule
- bending of rules
- British rule
- central government rule
- civil rule
- civilian rule
- closed rule
- common rule
- constitutional rule
- contractual rules
- direct presidential rule
- direct rule of Northern Ireland from London
- direct rule
- domestic rules
- during smb's rule
- economic rule
- emergency rule
- eunuch rule
- executive rule
- existing rules
- financial rules
- foreign rule
- forms of political rule
- fundamental rules
- gag rule
- gavel rule
- general rule
- generally accepted rules
- generally recognized rules
- genocidal rule
- ground rules
- handover to a civilian rule
- hard-and-fast rule
- home rule
- humanitarian rules
- immigration rules
- imposition of Central Government rule
- in accordance with the rules
- in conformity with the rules
- incompatibility with the rules of behavior
- industrial safety rules
- infringement of the rules of procedure
- international rules
- iron hand rule
- job safety rules
- legal rules
- majority rule
- mandate rule
- manipulation of rules
- military rule
- mob rule
- monopoly rule
- multilateral rules
- no-strike rule
- one-party rule
- one-time rule
- open rule
- operating rules
- over-riding of rules
- parliamentary checks on presidential rule
- party rules
- pertinent rules
- police rule
- political rule
- Ponsonby Rule
- popular democratic rule
- presidential rule
- previous question rule
- procedure rules
- provisional rule
- proxy rule
- repressive rule
- restoration of civilian rule
- return of civilian rule
- revised rules
- Rule of the Court - rule of foreign capital
- rule of germaneness
- rule of law
- rule of terror
- rule of the gun
- rule of the military
- rule of unanimity of great powers
- rules and customs of war - rules for international trade
- rules governing smth
- rules inherited from
- rules laid down in smth
- rules of confidentiality
- rules of international law
- rules prescribed by smb
- rules relating to trade
- set rule
- single-party rule
- special rule
- staff rule
- standing rule
- striving for economic rule
- ten minute rule
- terms of the rules of procedure
- totalitarian rule
- trade rules
- transition from military to civilian rule
- treaty rules
- unanimity rule
- under smb's rule
- unit rule
- virtual one-party rule
- voting rules
- white minority rule
- world rule 2. v1) править, управлять; господствовать2) постановлять; устанавливать•to rule with an iron fist / rod — править железной рукой
См. также в других словарях:
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