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1 napon
• expansion; pressure; pride; stress; tencion; tension; tension stress; traction; voltage -
2 ontspanning
• expansion• recreation• relaxation• release• stress release -
3 растяжение
1) General subject: dilatation, distension, elongation (связки), expansion, extension (волны), pull, rick (мышцы), spread, strain, stretching, tension, wrick (мышцы)2) Geology: stress, transtension3) Naval: stress strain4) Medicine: distention, distortion, distraction, ectasia (полого органа), ectasis, laxity, lengthening, spraining, stremma (напр. связки), torsion deformity, sprain (напр. связки)6) Agriculture: enlargement (в ширину)7) Automobile industry: dilation8) Physiology: expansion (во всех направлениях)10) Mechanics: traction11) Heat: expansion (district heating)13) Makarov: expanding, protraction, twist -
4 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 -
5 señalar
v.1 to indicate, to point at, to point out, to signal.Pedro apunta las necesidades de ella Peter points out her needs.2 to point.3 to point fingers, to accuse.* * *1 (marcar) to mark2 (rubricar) to sign and seal3 (hacer herida) to mark, scar4 (hacer notar) to point out5 (apuntar hacia) to point to, show6 (con el dedo) to point at7 (fijar - cita) to arrange, make; (fecha, lugar, precio) to set, fix8 (designar) to appoint9 (subrayar la importancia) to stress, underline1 (distinguirse) to distinguish oneself2 (sobresalir) to stand out* * *verb1) to indicate, show2) mark3) point out* * *1. VT1) (=indicar) [gen] to show; [con el dedo] to pointseñalar una falta — (Dep) to indicate a foul
2) (=marcar) to markel acné le ha señalado la cara — his face has been marked o scarred by acne
3) (=destacar) to point outtuve que señalarle varios errores en el examen — I had to point out several mistakes in the exam to him
4) (=designar) [+ fecha, precio] to fix, settle; [+ tarea] to seten el momento señalado — at the given moment, at the appointed time
todas las encuestas lo señalan como el candidato favorito — all the opinion polls point to him as the favourite candidate
5) (Aut) [+ carretera, ruta] to signpost6) [+ ganado] to brand2.See:* * *1.verbo transitivo1) ( indicar)me señaló la ruta en un mapa — he showed me the route o pointed out the route (to me) on a map
2) (marcar con lápiz, rotulador) to mark3) ( afirmar) to point outseñaló que... — she pointed out that...
a la hora señalada — at the appointed o arranged time
en el lugar señalado — in the appointed o agreed place
5) ( anunciar) to mark2.señalar vi to point3.señalarse v pron to distinguish oneself* * *1.verbo transitivo1) ( indicar)me señaló la ruta en un mapa — he showed me the route o pointed out the route (to me) on a map
2) (marcar con lápiz, rotulador) to mark3) ( afirmar) to point outseñaló que... — she pointed out that...
a la hora señalada — at the appointed o arranged time
en el lugar señalado — in the appointed o agreed place
5) ( anunciar) to mark2.señalar vi to point3.señalarse v pron to distinguish oneself* * *señalar11 = mark off, point to, tick (off), mark out, bring to + Posesivo + notice, mark + Nombre + down as.Ex: Human intervention may also be necessary to mark off the area in the string on the title page that should be indexed, and possibly to add an imprint date if not present.
Ex: This article points to economically feasible and communication-based indexing methods which fit the potentials of current information technology.Ex: In particular note, for example by ticking them, those terms that merit a turn in the lead position, and those that do not.Ex: To infuse into that basic form an element of linguistic liveliness and wit, which marks out the best adult reviewers, is to ask far more than most children can hope to achieve.Ex: One moonlight night Sweeny was brought to our notice by his ejaculations of impatience at being obliged to come to a dead halt.Ex: One look convinced the employer that she was unsuited for the work, and he marked her down as unsuitable.* señalar a Alguien = put + Alguien + on the spot.* señalar con el dedo = point + the fingers at.* señalar con un círculo = circle.señalar22 = bring to + Posesivo + attention, get at, indicate, mark, point, point out, signal, signify, stress, note, state, point + (a/the) finger(s) at.Ex: Errors in colleagues' work should be brought to their attention tactfully and not in the presence of others = A los compañeros se les debería hacer ver sus errores discretamente y no en presencia de otros.
Ex: What I'm getting at is this: At least in the CIP entry that I have seen, LC, following customary practice, made a title entry for the main title, 'Women in Librarianship', but nothing under Melvil's 'Rib Symposium'.Ex: The general index of CC lists isolates and indicates where they may be found as in a relative index.Ex: In addition, synthesis often requires the use of a facet indicator, which marks the beginning of a new facet for example.Ex: An arrow pointing upwards indicates when the terminal is in insert mode.Ex: By means of the arrangement of document substitutes in library catalogues, and also by the arrangement of documents themselves, it is possible to point out, or indicate, classes of documents.Ex: Main classes are denoted by a capital letter, and in most classes a second capital letter is used to signal major sections or subclasses.Ex: Within one main class the same piece of notation may be used to signify different concepts.Ex: However, it must be stressed that these problems are still in the future.Ex: In the future, a number of further developments can be fairly confidently predicted in addition to the expansion of those noted above.Ex: Short abstracts are generally preferred, but there are instances where the most effective approach is to cite the original unamended, and to state that this is what has been done.Ex: It is easy to point the fingers at the refs.* señalar diferencias = point out + differences, note + difference, point to + differences.* señalar las dificultades = note + difficulties.* señalar similitudes = point out + similarities.* * *señalar [A1 ]vtA(indicar): nos señaló la ruta en un mapa she showed us the route o pointed out the route to us on a mapme señaló con el dedo qué pasteles quería he pointed out to me which cakes he wantedlas manecillas del reloj señalaban las doce the hands of the clock showed twelveB (marcar) to marklos he señalado con una cruz I've marked them with a cross, I've put a cross by themC (afirmar) to point outseñaló la necesidad de abrir nuevos hospitales she pointed out the need to open new hospitalsD (fijar) ‹fecha› to fix, seta la hora señalada at the appointed o arranged timeseñalaron el día 15 como fecha tope they set o fixed the deadline for the 15then el lugar señalado in the appointed o agreed placeE (anunciar) to markla llegada de las cigüeñas señala el final del invierno the arrival of the storks marks o signals the end of winterto distinguish oneselfse señaló por su heroísmo en la guerra during the war he distinguished himself by his heroism* * *
señalar ( conjugate señalar) verbo transitivo
1 ( indicar) ‹ruta/camino› to show;
me señaló con el dedo he pointed at me (with his finger);
señalarle algo a algn to show sb sth, point sth out to sb;
me señaló con el dedo qué pasteles quería he pointed out (to me) which cakes he wanted
2 (marcar con lápiz, rotulador) to mark
3 ( afirmar) to point out;◊ señaló que … she pointed out that …
4 ( fijar) ‹ fecha› to fix, set;◊ en el lugar señalado in the appointed o agreed place
5 ( anunciar) to mark
verbo intransitivo
to point
señalar verbo transitivo
1 (con el dedo) to point at
(desprestigiar)
2 (apuntar, subrayar) me gustaría señalar que..., I would like to point out that...
3 (señalizar) to indicate: la brújula señalaba el norte, the compass was pointing North
4 (una fecha) to fix
5 (dejar una marca o huella) el navajazo le señaló la cara, the knife wound scarred his face
' señalar' also found in these entries:
Spanish:
apuntar
- indicar
- marcar
- dar
- dedo
- penalty
- puntero
- puntualizar
English:
appoint
- designate
- mark
- must
- pinpoint
- point
- point out
- signal
- at
- give
- indicate
- show
- single
* * *♦ vt1. [marcar] to mark;[hora, temperatura] to indicate, to show;el termómetro señalaba 10 grados the thermometer showed 10 degrees;la brújula debe señalar el norte the compass should indicate north;cuando el reloj señale las doce when the clock says twelve;las elecciones de aquel año señalaron el comienzo de la transición that year's elections marked the beginning of the transition2. [apuntar] to point out;nos señaló con el dedo he pointed at us;no quiero señalar a nadie, pero… I don't want to point the finger at anyone, but…;la flecha señala el camino the arrow indicates the path;me señaló los errores que había cometido he showed me o pointed out to me the mistakes I had made3. [ser el inicio de] to mark, to signal;las lluvias señalan la llegada del monzón the rains signal o announce the arrival of the monsoon4. [recalcar] to point out;me gustaría señalar que… I'd like to point out that…5. [fijar] to set, to fix;aún no han señalado el día de la boda they haven't yet fixed the date of the wedding;señaló su valor en 1.000 dólares he set o fixed its value at 1,000 dollars6. [ganado] to brand* * *v/t1 indicate, point out;señalar a alguien con el dedo tb fig point at s.o.3 ( fijar) set, decide on* * *señalar vt1) indicar: to indicate, to show2) : to mark3) : to point out, to stress4) : to fix, to set* * *señalar vb1. (marcar) to mark -
6 тепловое расширение
1) Engineering: heat expansion2) Construction: temperature expansion3) Mining: thermal diking4) Textile: temperature stress5) Physics: thermal dilatation, thermal expansion6) Automation: thermal growth7) Makarov: thermal dilationУниверсальный русско-английский словарь > тепловое расширение
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7 разрушать
. нарушать•Moderate earthquake motions can collapse (or destroy) walls and...
•Such tumours are destructive to adjacent tissues.
•Only molten alkali metals and gaseous fluorine at high temperatures and pressures attack TFE resin.
•The maximum stress applied to rupture the material is called ultimate stress.
•Such forces of expansion can break down the strongest material.
Русско-английский научно-технический словарь переводчика > разрушать
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8 Entspannung
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9 korostus
yks.nom. korostus; yks.gen. korostuksen; yks.part. korostusta; yks.ill. korostukseen; mon.gen. korostusten korostuksien; mon.part. korostuksia; mon.ill. korostuksiinaccent (noun)emphasis (noun)stress (noun)* * *• expansion• stress• underlining• pronunciation• peaking• intonation• emphasis• boost• articulation• accentuation• accent• emphasizing -
10 под воздействием
(разности потенциалов, нагрузки, нагревания, излучения, удара и т.п.) under, under the action of, under the influence of, influenced by, caused by, affected by, induced by, when subjected to, after being subjected toпод действием давления/удара/механического напряжения --- under pressure/impact/the strain скорость расширения массы газа под действием силы давления --- the rate of expansion of a gas-cloud under the influence of a pressure-force движение тел под действием сил --- the motion of bodies under the action of forces под действием гравитации --- under the action of gravity поддаваться деформации под действием нагрузки --- to be flexible under stress of physical force необратимые деформации тела под воздействием нагрузки --- the irreversible deformation of a substance after being subjected to stress When subjected to tension, a material elongates and eventually breaks. The SI unit of resistance, transmitting a current of one ampere when subjected to a potential difference of one volt, is called 'ohm'.
Русско-английский словарь механических и общенаучных терминов > под воздействием
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11 под действием
(разности потенциалов, нагрузки, нагревания, излучения, удара и т.п.) under, under the action of, under the influence of, influenced by, caused by, affected by, induced by, when subjected to, after being subjected toпод действием давления/удара/механического напряжения --- under pressure/impact/the strain скорость расширения массы газа под действием силы давления --- the rate of expansion of a gas-cloud under the influence of a pressure-force движение тел под действием сил --- the motion of bodies under the action of forces под действием гравитации --- under the action of gravity поддаваться деформации под действием нагрузки --- to be flexible under stress of physical force необратимые деформации тела под воздействием нагрузки --- the irreversible deformation of a substance after being subjected to stress When subjected to tension, a material elongates and eventually breaks. The SI unit of resistance, transmitting a current of one ampere when subjected to a potential difference of one volt, is called 'ohm'.
Русско-английский словарь механических и общенаучных терминов > под действием
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12 SWE
subsea working enclosure — подводная рабочая камера (предназначена для проведения обслуживающим персоналом работ по обслуживанию и ремонту устьевого оборудования)stress wave emission — распространение волны напряжений (напр., в образце при испытании) -
13 joint de dilatation
Dictionnaire d'ingénierie, d'architecture et de construction > joint de dilatation
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14 Carnot, Nicolas Léonard Sadi
SUBJECT AREA: Steam and internal combustion engines[br]b. 1 June 1796 Paris, Franced. 24 August 1831 Paris, France[br]French laid the foundations for modern thermodynamics through his book Réflexions sur la puissance motrice du feu when he stated that the efficiency of an engine depended on the working substance and the temperature drop between the incoming and outgoing steam.[br]Sadi was the eldest son of Lazare Carnot, who was prominent as one of Napoleon's military and civil advisers. Sadi was born in the Palais du Petit Luxembourg and grew up during the Napoleonic wars. He was tutored by his father until in 1812, at the minimum age of 16, he entered the Ecole Polytechnique to study stress analysis, mechanics, descriptive geometry and chemistry. He organized the students to fight against the allies at Vincennes in 1814. He left the Polytechnique that October and went to the Ecole du Génie at Metz as a student second lieutenant. While there, he wrote several scientific papers, but on the Restoration in 1815 he was regarded with suspicion because of the support his father had given Napoleon. In 1816, on completion of his studies, Sadi became a second lieutenant in the Metz engineering regiment and spent his time in garrison duty, drawing up plans of fortifications. He seized the chance to escape from this dull routine in 1819 through an appointment to the army general staff corps in Paris, where he took leave of absence on half pay and began further courses of study at the Sorbonne, Collège de France, Ecole des Mines and the Conservatoire des Arts et Métiers. He was inter-ested in industrial development, political economy, tax reform and the fine arts.It was not until 1821 that he began to concentrate on the steam-engine, and he soon proposed his early form of the Carnot cycle. He sought to find a general solution to cover all types of steam-engine, and reduced their operation to three basic stages: an isothermal expansion as the steam entered the cylinder; an adiabatic expansion; and an isothermal compression in the condenser. In 1824 he published his Réflexions sur la puissance motrice du feu, which was well received at the time but quickly forgotten. In it he accepted the caloric theory of heat but pointed out the impossibility of perpetual motion. His main contribution to a correct understanding of a heat engine, however, lay in his suggestion that power can be produced only where there exists a temperature difference due "not to an actual consumption of caloric but to its transportation from a warm body to a cold body". He used the analogy of a water-wheel with the water falling around its circumference. He proposed the true Carnot cycle with the addition of a final adiabatic compression in which motive power was con sumed to heat the gas to its original incoming temperature and so closed the cycle. He realized the importance of beginning with the temperature of the fire and not the steam in the boiler. These ideas were not taken up in the study of thermodynartiics until after Sadi's death when B.P.E.Clapeyron discovered his book in 1834.In 1824 Sadi was recalled to military service as a staff captain, but he resigned in 1828 to devote his time to physics and economics. He continued his work on steam-engines and began to develop a kinetic theory of heat. In 1831 he was investigating the physical properties of gases and vapours, especially the relationship between temperature and pressure. In June 1832 he contracted scarlet fever, which was followed by "brain fever". He made a partial recovery, but that August he fell victim to a cholera epidemic to which he quickly succumbed.[br]Bibliography1824, Réflexions sur la puissance motrice du feu; pub. 1960, trans. R.H.Thurston, New York: Dover Publications; pub. 1978, trans. Robert Fox, Paris (full biographical accounts are provided in the introductions of the translated editions).Further ReadingDictionary of Scientific Biography, 1971, Vol. III, New York: C.Scribner's Sons. T.I.Williams (ed.), 1969, A Biographical Dictionary of Scientists, London: A. \& C.Black.Chambers Concise Dictionary of Scientists, 1989, Cambridge.D.S.L.Cardwell, 1971, from Watt to Clausius. The Rise of Thermodynamics in the Early Industrial Age, London: Heinemann (discusses Carnot's theories of heat).RLHBiographical history of technology > Carnot, Nicolas Léonard Sadi
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15 Chevenard, Pierre Antoine Jean Sylvestre
SUBJECT AREA: Metallurgy[br]b. 31 December 1888 Thizy, Rhône, Franced. 15 August 1960 Fontenoy-aux-Roses, France[br]French metallurgist, inventor of the alloys Elinvar and Platinite and of the method of strengthening nickel-chromium alloys by a precipitate ofNi3Al which provided the basis of all later super-alloy development.[br]Soon after graduating from the Ecole des Mines at St-Etienne in 1910, Chevenard joined the Société de Commentry Fourchambault et Decazeville at their steelworks at Imphy, where he remained for the whole of his career. Imphy had for some years specialized in the production of nickel steels. From this venture emerged the first austenitic nickel-chromium steel, containing 6 per cent chromium and 22–4 per cent nickel and produced commercially in 1895. Most of the alloys required by Guillaume in his search for the low-expansion alloy Invar were made at Imphy. At the Imphy Research Laboratory, established in 1911, Chevenard conducted research into the development of specialized nickel-based alloys. His first success followed from an observation that some of the ferro-nickels were free from the low-temperature brittleness exhibited by conventional steels. To satisfy the technical requirements of Georges Claude, the French cryogenic pioneer, Chevenard was then able in 1912 to develop an alloy containing 55–60 per cent nickel, 1–3 per cent manganese and 0.2–0.4 per cent carbon. This was ductile down to −190°C, at which temperature carbon steel was very brittle.By 1916 Elinvar, a nickel-iron-chromium alloy with an elastic modulus that did not vary appreciably with changes in ambient temperature, had been identified. This found extensive use in horology and instrument manufacture, and even for the production of high-quality tuning forks. Another very popular alloy was Platinite, which had the same coefficient of thermal expansion as platinum and soda glass. It was used in considerable quantities by incandescent-lamp manufacturers for lead-in wires. Other materials developed by Chevenard at this stage to satisfy the requirements of the electrical industry included resistance alloys, base-metal thermocouple combinations, magnetically soft high-permeability alloys, and nickel-aluminium permanent magnet steels of very high coercivity which greatly improved the power and reliability of car magnetos. Thermostatic bimetals of all varieties soon became an important branch of manufacture at Imphy.During the remainder of his career at Imphy, Chevenard brilliantly elaborated the work on nickel-chromium-tungsten alloys to make stronger pressure vessels for the Haber and other chemical processes. Another famous alloy that he developed, ATV, contained 35 per cent nickel and 11 per cent chromium and was free from the problem of stress-induced cracking in steam that had hitherto inhibited the development of high-power steam turbines. Between 1912 and 1917, Chevenard recognized the harmful effects of traces of carbon on this type of alloy, and in the immediate postwar years he found efficient methods of scavenging the residual carbon by controlled additions of reactive metals. This led to the development of a range of stabilized austenitic stainless steels which were free from the problems of intercrystalline corrosion and weld decay that then caused so much difficulty to the manufacturers of chemical plant.Chevenard soon concluded that only the nickel-chromium system could provide a satisfactory basis for the subsequent development of high-temperature alloys. The first published reference to the strengthening of such materials by additions of aluminium and/or titanium occurs in his UK patent of 1929. This strengthening approach was adopted in the later wartime development in Britain of the Nimonic series of alloys, all of which depended for their high-temperature strength upon the precipitated compound Ni3Al.In 1936 he was studying the effect of what is now known as "thermal fatigue", which contributes to the eventual failure of both gas and steam turbines. He then published details of equipment for assessing the susceptibility of nickel-chromium alloys to this type of breakdown by a process of repeated quenching. Around this time he began to make systematic use of the thermo-gravimetrie balance for high-temperature oxidation studies.[br]Principal Honours and DistinctionsPresident, Société de Physique. Commandeur de la Légion d'honneur.Bibliography1929, Analyse dilatométrique des matériaux, with a preface be C.E.Guillaume, Paris: Dunod (still regarded as the definitive work on this subject).The Dictionary of Scientific Biography lists around thirty of his more important publications between 1914 and 1943.Further Reading"Chevenard, a great French metallurgist", 1960, Acier Fins (Spec.) 36:92–100.L.Valluz, 1961, "Notice sur les travaux de Pierre Chevenard, 1888–1960", Paris: Institut de France, Académie des Sciences.ASDBiographical history of technology > Chevenard, Pierre Antoine Jean Sylvestre
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16 безразлично
•It does not matter whether we are cooling or heating.
* * *Безразлично -- it makes no difference; there is no choice between; does not know the difference, does not careNote that it makes no difference whether the stress due to the expansion is positive or negative. It is the total travel that counts, not the direction.The generator does not know [does not care] the difference whether it is generating or motoring. (Генератору безразлично в каком режиме -- генератора или двигателя -- он работает).—безразличноРусско-английский научно-технический словарь переводчика > безразлично
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17 бандаж
2) Naval: shrouding (в турбине)4) Sports: jock -strap (поддерживающая повязка для мошонки,средство профилактики спортивных травм и защиты в дзюдо,конном спорте и т.п), codpiece5) Military: (ствола) hoop6) Engineering: beltline, inner tape, rim (колеса), shroud, tread (колеса), tread band, tyre7) Construction: belt (доменной печи), clamping device, clip band, draw band, expansion coupling, ferrule, pipe shell8) Railway term: binding band, tire, tyre (колёсный)10) Mining: slugger (дробильных валков)11) Cinema: jockstrap12) Forestry: collar (сгустителя)13) Physics: banding15) Oil: bandaging, belly brace (для крепления цистерн), binding16) Astronautics: clampband, hoop-stress band, stiffening ring17) Paper industry: cutting blanket (из полиуретана для высечки гофрокартона)19) Silicates: box tire, riding ring (вращающейся печи), shroud ring (вращающейся печи), tire (вращающейся печи), tyre (вращающейся печи)20) Aeronautics: shroud ring (рабочего колеса турбины)21) Drilling: retainer ring22) Chemical weapons: handling ring23) Makarov: band (доменной печи), band (кольцо на верхнем конце сваи), band (трансформатора), banding (кольцо на верхнем конце сваи), circumferential band (трансформатора), hoop (обжиговой печи), shroud (в компрессоре, турбине), shroud (колеса турбины), sleeve (валка; прокатка), tyre (обжиговой печи), wheelband (колёсный)24) Tengiz: wheel tread (контактная поверхность колеса)25) Machine tools: saddle (В моем случае этим бандажом газорезательная машина крепилась к поверхности трубы, которую надо было резать) -
18 Ausdehnungsspannung
f < mech> ■ expansion stress -
19 señalar2
2 = bring to + Posesivo + attention, get at, indicate, mark, point, point out, signal, signify, stress, note, state, point + (a/the) finger(s) at.Ex. Errors in colleagues' work should be brought to their attention tactfully and not in the presence of others = A los compañeros se les debería hacer ver sus errores discretamente y no en presencia de otros.Ex. What I'm getting at is this: At least in the CIP entry that I have seen, LC, following customary practice, made a title entry for the main title, 'Women in Librarianship', but nothing under Melvil's 'Rib Symposium'.Ex. The general index of CC lists isolates and indicates where they may be found as in a relative index.Ex. In addition, synthesis often requires the use of a facet indicator, which marks the beginning of a new facet for example.Ex. An arrow pointing upwards indicates when the terminal is in insert mode.Ex. By means of the arrangement of document substitutes in library catalogues, and also by the arrangement of documents themselves, it is possible to point out, or indicate, classes of documents.Ex. Main classes are denoted by a capital letter, and in most classes a second capital letter is used to signal major sections or subclasses.Ex. Within one main class the same piece of notation may be used to signify different concepts.Ex. However, it must be stressed that these problems are still in the future.Ex. In the future, a number of further developments can be fairly confidently predicted in addition to the expansion of those noted above.Ex. Short abstracts are generally preferred, but there are instances where the most effective approach is to cite the original unamended, and to state that this is what has been done.Ex. It is easy to point the fingers at the refs.----* señalar diferencias = point out + differences, note + difference, point to + differences.* señalar las dificultades = note + difficulties.* señalar similitudes = point out + similarities. -
20 détente
fexpansion, folding wedge, lowering wedge, stress relieving, striking wedge, triggerDictionnaire d'ingénierie, d'architecture et de construction > détente
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См. также в других словарях:
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