aluminium-alloy casting

aluminium-alloy casting

Железнодорожный термин: алюминиевый сплав

aluminium-alloy casting

алюминиевый сплав

alloy

сплав || сплавлять; легировать

- aluminium alloy

- aluminium-manganese alloy
- antifriction alloy
- bearing alloy
- binary alloy
- brass brazing alloy
- brazing alloy
- casting alloy
- commercial alloy
- copper alloy
- E-alloy
- eutectic alloy
- fancy alloy
- ferro alloy
- ferrous alloy
- fusible alloy
- hard-facing alloy
- hard-metal alloy
- heat-resisting alloy
- heat-treatable alloy
- high alloy
- high-melting alloy
- high-melting point alloy
- high temperature alloy
- iron-base alloy
- iron-carbon alloy
- latten alloy
- light alloy
- light-weight alloy
- low-melting alloy
- low-melting point alloy
- magnesium alloy
- magnetic alloy
- nickel alloy
- non-ferrous alloy
- non-hardenable alloy
- non-heat-treatable alloy
- quaternary alloy
- resistance alloy
- R.W.M.A. alloy
- silver alloy
- silver brazing alloy
- sintered hard alloy
- solder alloy
- solid solution alloy
- steel alloy
- strain-hardened alloy
- ternary alloy
- thermocouple alloy
- three-component alloy
- three-part alloy
- tin-base alloy
- titanium alloy
- two-component alloy
- welding alloy
- wrought alloy
- Y alloy

Aluminium-Gusslegierung

f < mat> (Gegensatz zur Knetlegierung) ■ aluminium casting alloy

aluminium casting alloy

< mat> ■ Aluminium-Gusslegierung f

алюминиевый сплав

1) Engineering: aluminum alloy

2) Railway term: aluminium-alloy casting

3) Automobile industry: aluminium alloy

4) Bicycle: alloy (дюралюмин; В буквальном переводе alloy - любой сплав, но в велосипедных делах - это только сплавы алюминия), aluminum (дюралюмин; В буквальном переводе alloy - любой сплав, но в велосипедных делах - это только сплавы алюминия)

5) Electrochemistry: aluminum-base alloy

сплав

alloy, driving лесн., fusion

* * *

сплав м.

1. alloy

2. ( леса) floating

алюми́ниевый сплав — aluminium alloy

алюминийсодержа́щий сплав — aluminium-bearing alloy

антифрикцио́нный сплав — antifriction alloy

бе́лый сплав — white metal

бери́ллиевый сплав — beryllium alloy

вольфра́мовый сплав — tungsten alloy

сплав высо́кого уде́льного сопротивле́ния — (high-)resistance alloy

высококоэрцити́вный сплав — high-coercitivity alloy

высоколеги́рованный сплав — high alloy

двойно́й сплав — binary alloy

двухкомпоне́нтный сплав — binary alloy

деформи́руемый сплав ( поддающийся обработке давлением) — wrought alloy

дисперсио́нно-тверде́ющий сплав — age-hardenable alloy

сплав для литья́ под давле́нием — ore-casting alloy

сплав для нагрева́тельных элеме́нтов — resistance-element alloy

сплав для постоя́нных магни́тов — permanent magnet alloy

сплав для спа́йки со стекло́м — glass-seal alloy

сплав для твё́рдой па́йки — brazing alloy

сплав для термопа́р — thermocouple alloy

доэвтекти́ческий сплав — hypoeutectic alloy

жаропро́чный сплав — high-temperature alloy, superalloy

жаросто́йкий сплав — heat-resistant alloy

желе́зный сплав — iron alloy, ferroalloy

желе́зо-углеро́дистый сплав — iron-carbon alloy

заэвтекти́ческий сплав — hypereutectic alloy

зерка́льный сплав — mirror alloy

износосто́йкий сплав — wear-resistant [abrasion-resistant] alloy

кислотоупо́рный сплав — acid-resistant alloy

ко́вкий сплав — wrought alloy

конструкцио́нный сплав — structural alloy

корозионносто́йкий сплав — corrosion-resistant alloy

лё́гкий сплав — light(-weight) alloy

легкопла́вкий сплав — fusible alloy

линоти́пный сплав — linotype alloy

лите́йный сплав — cast(ing) alloy

магнитномя́гкий сплав — magnetically soft alloy

магнитотвё́рдый сплав — magnetically hard alloy

магни́тный сплав — magnetic alloy

металлокерами́ческий сплав — cermet

молево́й сплав ( леса) — drift floating

низколеги́рованный сплав — low alloy

низкопла́вящийся сплав — low-melting(-temperature) alloy

плотово́й сплав ( леса) — rafting

сплав повы́шенной про́чности — high-strength alloy

подши́пниковый сплав — bearing alloy, bearing metal

прецизио́нный сплав — precision alloy

сплав с высо́ким оми́ческим сопротивле́нием — high-resistance alloy

сплав с высо́кой температу́рой плавле́ния — high-melting temperature alloy

сплав с ни́зкой температу́рой плавле́ния — low-melting temperature alloy

специа́льный сплав — special-property alloy

спечё́нный сплав — sintered alloy

твё́рдый сплав — hard alloy, diamond substitute

арми́ровать, напр. ре́жущий инструме́нт твё́рдым спла́вом — hard-face, e. g., a cutting tool

наплавля́ть твё́рдый сплав, напр. на ре́жущий инструме́нт — deposit a hard surface on, e. g., a cutting tool

твё́рдый, лито́й сплав — cast carbide alloy

твё́рдый, металлокерами́ческий сплав — cemented [sintered] carbide alloy

термомагни́тный сплав — thermomagnetic alloy

типогра́фский сплав — type-metal alloy

трёхкомпоне́нтный сплав — ternary alloy

тройно́й сплав — ternary alloy

тяжё́лый сплав ( псевдосплав высокой прочности) — heavy alloy

ферромагни́тный сплав — ferromagnetic alloy

сплав цветны́х мета́ллов — non-ferrous alloy

четвертно́й сплав — quaternary alloy

четырёхкомпоне́нтный сплав — quaternary alloy

эвтекти́ческий сплав — eutectic alloy

эвтекто́идный сплав — eutectoid alloy

lega

"alloy;

Legierung;

liga"

* * *

f (pl -ghe) league

metallurgy alloy

* * *

lega¹ s.f.

1 league, association, alliance: lega offensiva, difensiva, offensive, defensive alliance; stringere, sciogliere una lega, to form, to end an alliance // (econ.): lega dei consumatori, consumers' association; lega doganale, customs union; lega sindacale, trade union (o association) // (fin.) lega monetaria, monetary union // (st.): la lega delle Nazioni, the League of Nations; la Lega Santa, the Holy League

2 (spreg.) gang, league: far lega con i peggiori, to gang up with the worst types

3 ( sport) league

4 (metall.) alloy: lega antifrizione, babbit (o antifriction alloy o bearing alloy); lega d'acciaio, alloy steel; lega di stagno, (peltro) pewter; lega fusibile, fusible alloy; lega leggera, light (o aluminium) alloy; lega ultra leggera, magnesium alloy; lega per alte temperature, super alloy (for high temperatures); lega per caratteri da stampa, type metal; lega per fusioni, casting metal; lega per saldatura a stagno (dolce), soft solder; moneta di bassa lega, base coin; l'ottone è una lega di rame e zinco, brass is an alloy of copper and zinc (o a copper-zinc alloy) // di buona lega, (fig.) genuine; di cattiva lega, (fig.) low (o vulgar); è uno scherzo di cattiva lega, it is a joke in bad taste.

lega² s.f. league (misura itineraria = 4,83 km; misura marittima = 5,56 km).

* * *

I

pl. - ghe ['lega, ge] sostantivo femminile

1) (associazione) league, association

lega calcio — Football League

2) (alleanza) league, alliance

far lega con qcn. — to be in league with sb

3) metall. alloy

in lega — alloy

di buona lega — sterling, genuine

di bassa lega — [ metallo] base; fig. cheap, of little worth

•

Lega (Nord) — pol. = Italian regionalist and federalist political party

II

pl. - ghe ['lega, ge] sostantivo femminile (unità di misura) league

* * *

lega¹

pl. - ghe /'lega, ge/

sostantivo f.

 1 (associazione) league, association; lega calcio Football League

 2 (alleanza) league, alliance; far lega con qcn. to be in league with sb.

 3 metall. alloy; in lega alloy; di buona lega sterling, genuine; di bassa lega [ metallo] base; fig. cheap, of little worth

COMPOUNDS

Lega (Nord) pol. = Italian regionalist and federalist political party.

————————

lega²

pl. - ghe /'lega, ge/ ⇒ 21

sostantivo f.

(unità di misura) league.

литье (металла)

casting
- под давлением — pressure casting
корпус изготовлен литьем под давлением из алюминиевого сплава. — а casing is made of pressure cast aluminium alloy.

Rosenhain, Walter

SUBJECT AREA: Metallurgy

[br]

b. 24 August 1875 Berlin, Germany

d. 17 March 1934 Kingston Hill, Surrey, England

[br]

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

[br]

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

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

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

[br]

Principal Honours and Distinctions

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

Bibliography

1908, Glass Manufacture.

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

Further Reading

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

ASD