through-hardening+steel

сталь свозной прокаливаемости

through-hardening steel

сталь сквозной прокаливаемости

through-hardening steel

сталь сквозной прокаливаемости

through-hardening steel

сталь сквозной прокаливаемости

through-hardening steel

сталь

steel

* * *

сталь ж.
steel

азоти́ровать сталь — nitride steel

алити́ровать сталь — aluminize steel

вакууми́ровать сталь — treat (molten) steel under vacuum

вари́ть сталь жарг. — make steel

ворони́ть сталь — blue steel

выплавля́ть сталь — make steel

гофрирова́ть сталь — corrugate steel

закаля́ть сталь — harden steel; ( охлаждать в целях закалки) quench steel

ката́ть сталь в горя́чем состоя́нии — hot-roll steel

ката́ть сталь в холо́дном состоя́нии — cold-roll steel

леги́ровать сталь — alloy steel

нагарто́вывать сталь — work-harden steel

нагрева́ть сталь — reheat steel

науглеро́живать сталь — carburize steel

нормализова́ть сталь — normalize steel

обраба́тывать сталь термомехани́ческий — ausform steel

омедня́ть сталь — copper-plate steel

отжига́ть сталь — anneal steel

отпуска́ть сталь — temper steel

оцинко́вывать сталь — galvanize steel

пакети́ровать сталь — fagot steel

передува́ть сталь — overblow steel

пережига́ть сталь — burn steel

плакирова́ть сталь — clad steel

подверга́ть сталь термообрабо́тке — heat-treat steel

поставля́ть сталь по механи́ческим сво́йствам — market steel on the basis of physical specifications

поставля́ть сталь по хими́ческому соста́ву — market steel on the basis of chemical specifications

продува́ть сталь по́лностью — blow steel fully

разлива́ть сталь (в изло́жницы) — cast steel, pour [teem] steel into moulds

расчисля́ть сталь — deoxidize steel

рифли́ть сталь — checker steel

стабилизи́ровать сталь — stabilize steel

трави́ть сталь — pickle steel

успока́ивать сталь — kill steel

хроми́ровать сталь хими́ческим спо́собом — chromate steel

хроми́ровать сталь электролити́ческим спо́собом — chrome-plate steel

цементи́ровать сталь — case-harden steel

авиацио́нная сталь — aircraft steel

автома́тная сталь — free-cutting steel

алма́зная сталь — extra-hard steel

армату́рная сталь — reinforcing-bar steel; ( вид проката) reinforcing bars

аустени́тная сталь — abstenitic steel

бессеме́ровская сталь — Bessemer steel

бруско́вая сталь уст. — (square) bar steel

быстроре́жущая сталь — high-speed steel

була́тная сталь — Damascus steel, damascene

высоколеги́рованная сталь — high-alloy steel

высокоуглеро́дистая, высокомарганцо́вистая и т. п. сталь — high-carbon, high-manganese, etc. steel

дама́сская сталь — Damascus steel, damascene

дина́мная сталь — dynamo steel

дисперсио́нно-тверде́ющая сталь — precipitation-hardening steel

доэвтекто́идная сталь — hypoeutectoid steel

жаропро́чная сталь — high-temperature steel

жаросто́йкая сталь — heat-resistant steel

заклё́почная сталь — rivet steel

заэвтекто́идная сталь — hypereutectoid steel

износосто́йкая сталь — wear-resisting steel

инструмента́льная сталь — tool steel

квадра́тная сталь — squares

кипя́щая сталь — брит. rimming steel; амер. rimmed steel

ки́слая сталь — acid steel

кислотосто́йкая сталь — acid resisting steel

кла́панная сталь — valve steel

конве́ртерная сталь — converter steel

конструкцио́нная сталь — structural steel

ко́рпусная сталь — hull plate

коррозио́нно-сто́йкая сталь — corrosion-resistant steel

коте́льная сталь — boiler steel

кремни́стая сталь — silicon steel

кру́глая сталь — rounds

леги́рованная сталь — alloyed [alloy-treated] steel

малоуглеро́дистая сталь — low-carbon steel

ма́рганцевая сталь — manganese steel

марте́новская сталь — open-hearth steel

мартенси́тная сталь — martensitic steel

мартенситностаре́ющая сталь — maraging steel

многосло́йная сталь — ply steel

мя́гкая сталь — mild [soft] steel

недораски́сленная сталь — rising steel

нелеги́рованная сталь — plain (carbon) steel

нема́рочная сталь — off-grade steel

нержаве́ющая сталь — stainless steel

низколеги́рованная сталь — low-alloyed steel

низкоуглеро́дистая сталь — low-carbon steel

о́бручная сталь — hoop iron

основна́я сталь — basic steel

перли́тная сталь — pearlitic steel

сталь пове́рхностной прока́ливаемости — shallow-hardening steel

подши́пниковая сталь — bearing steel

полосова́я сталь ( не путать со стально́й полосо́й) — strip steel (not to be confused with steel strip)

полуспоко́йная сталь — semikilled steel

прока́тная, углова́я сталь — angles

прока́тная, углова́я неравнобо́кая сталь — unequal angles

прока́тная, углова́я равнобо́кая сталь — equal angles

проста́я сталь — plain steel

про́фильная сталь — steel shapes

пружи́нная сталь — spring steel

прутко́вая сталь — rod steel; ( вид проката) rods

ре́льсовая сталь — rail steel

ро́слая сталь — rising steel

самозака́ливающаяся сталь — air-hardening steel

сва́рочная сталь — weld steel

сталь сквозно́й прока́ливаемости — through-hardening steel

споко́йная сталь — killed steel

судострои́тельная сталь — shipbuilding steel

текстуро́ванная сталь — grain-oriented steel

ти́гельная сталь — crucible steel

толстолистова́я сталь — plate steel; ( вид проката) (steel) plate

толстолистова́я, фасо́нная сталь — sketch plate(s)

тонколистова́я сталь — sheet steel; ( вид проката) steel sheet

то́почная сталь — fire-box steel

трансформа́торная сталь — transformer steel

тру́бная сталь — pipe steel

углеро́дистая сталь — carbon steel

фасо́нная сталь — structural shape(s)

ферри́тная сталь — ferritic steel

хро́мистая сталь — chromium steel

цеме́нтная сталь — cement steel

шве́ллерная сталь — channels

шестигра́нная сталь — hexagonal steel, hexagons

шта́мповая сталь — die steel

штри́псовая сталь — skelp steel

электри́ческая сталь — electrical steel (см. тж. электросталь)

электротехни́ческая сталь — electrical-sheet [silicon-sheet] steel

сталь

steel

– авиационная сталь
– автоматная сталь
– азотировать сталь
– алитировать сталь
– алмазная сталь
– арматурная сталь
– брусковая сталь
– булатная сталь
– варить сталь
– ворнить сталь
– высоколегированная сталь
– гофрировать сталь
– динамная сталь
– доэвтектоидная сталь
– жаропрочная сталь
– закалять сталь
– заклепочная сталь
– заэвтектоидная сталь
– инструментальная сталь
– квадратная сталь
– кислая сталь
– конструкционная сталь
– корпусная сталь
– котельная сталь
– кремнистая сталь
– легировать сталь
– малоуглеродистая сталь
– марганцевая сталь
– мартенситная сталь
– многослойная сталь
– нагартовывать сталь
– нагревать сталь
– науглероживать сталь
– недораскисленная сталь
– нелегированная сталь
– немарочная сталь
– нержавеющая сталь
– низколегированная сталь
– нормализовать сталь
– обручная сталь
– омеднять сталь
– основная сталь
– отжигать сталь
– отпускать сталь
– оцинковывать сталь
– пакетировать сталь
– передувать сталь
– пережигать сталь
– перлитная сталь
– плакировать сталь
– подшипниковая сталь
– полосовая сталь
– профильная сталь
– пружинная сталь
– прутковая сталь
– разливать сталь
– раскислять сталь
– рельсовая сталь
– рифлить сталь
– сварочная сталь
– спокойная сталь
– сталь автоматная
– сталь азотированная
– сталь аустенитная
– сталь бессемеровская
– сталь бурильная
– сталь кипящая
– судостроительная сталь
– текстурованная сталь
– тигельная сталь
– толстолистовая сталь
– тонколистовая сталь
– топочная сталь
– травить сталь
– трансформаторная сталь
– трубная сталь
– углеродистая сталь
– успокаивать сталь
– хромистая сталь
– цементировать сталь
– цементная сталь
– швеллерная сталь
– шестигранная сталь
– штамповая сталь
– штрипсовая сталь

продувать сталь полностью — blow steel fully

сталь поверхностной прокаливаемости — shallow-hardening steel

сталь сквозной прокаливаемости — through-hardening steel

угловая прокатная сталь — angles

сталь сквозной прокаливаемости

through-hardening steel метал.

сквозной

1) composition

2) continuous
3) major
4) <electr.> open
5) open-end
6) open-ended
7) through
8) transparent
– камень сквозной
– сквозной вал
– сквозной перенос
– сквозной шип

гнездо сквозной связи — through jack

контроль проекта структурный сквозной — design walk through

сквозной анкерный болт — through bolt

сквозной такт работы ЭВМ — major clock cycle

сталь сквозной прокаливаемости — through-hardening steel

сталь сквозной прокаливаемости

Engineering: through-hardening steel

durchhärtender Stahl

durchhärtender Stahl m MET through hardening steel

tempra

"heat treatment;

Härten"

* * *

tempra s.f.

1 (tecn.) hardening; temper; ( del vetro) tempering; ( con raffreddamento in liquido) quenching: tempra di profondità, through hardening; tempra in acqua, water quenching; tempra in bianco, bright hardening; tempra in olio, oil quenching; tempra localizzata, selective quenching; bagno di tempra, quenching bath // una lama di buona tempra, a well -tempered blade; un metallo di buona tempra, a well-tempered metal

2 (fig.) character, fibre, temperament; ( costituzione fisica) constitution: una persona della sua tempra, a person of his character (o fibre o temperament); un uomo di tempra robusta, a man with a sound constitution

3 ( di suono) timbre.

* * *

['tɛmpra]

sostantivo femminile

1) tecn. (operazione) tempering, hardening; (proprietà) temper

acciaio di buona tempra — well-tempered steel

2) fig. (carattere) character, fibre BE, fiber AE, strength

tempra morale — moral fibre

avere la tempra del lottatore — to be made to be a fighter

* * *

tempra

/'tεmpra/

sostantivo f.

 1 tecn. (operazione) tempering, hardening; (proprietà) temper; acciaio di buona tempra well-tempered steel

 2 fig. (carattere) character, fibre BE, fiber AE, strength; tempra morale moral fibre; avere la tempra del lottatore to be made to be a fighter.

World War II

(1939-1945)

   In the European phase of the war, neutral Portugal contributed more to the Allied victory than historians have acknowledged. Portugal experienced severe pressures to compromise her neutrality from both the Axis and Allied powers and, on several occasions, there were efforts to force Portugal to enter the war as a belligerent. Several factors lent Portugal importance as a neutral. This was especially the case during the period from the fall of France in June 1940 to the Allied invasion and reconquest of France from June to August 1944.

   In four respects, Portugal became briefly a modest strategic asset for the Allies and a war materiel supplier for both sides: the country's location in the southwesternmost corner of the largely German-occupied European continent; being a transport and communication terminus, observation post for spies, and crossroads between Europe, the Atlantic, the Americas, and Africa; Portugal's strategically located Atlantic islands, the Azores, Madeira, and Cape Verde archipelagos; and having important mines of wolfram or tungsten ore, crucial for the war industry for hardening steel.

   To maintain strict neutrality, the Estado Novo regime dominated by Antônio de Oliveira Salazar performed a delicate balancing act. Lisbon attempted to please and cater to the interests of both sets of belligerents, but only to the extent that the concessions granted would not threaten Portugal's security or its status as a neutral. On at least two occasions, Portugal's neutrality status was threatened. First, Germany briefly considered invading Portugal and Spain during 1940-41. A second occasion came in 1943 and 1944 as Great Britain, backed by the United States, pressured Portugal to grant war-related concessions that threatened Portugal's status of strict neutrality and would possibly bring Portugal into the war on the Allied side. Nazi Germany's plan ("Operation Felix") to invade the Iberian Peninsula from late 1940 into 1941 was never executed, but the Allies occupied and used several air and naval bases in Portugal's Azores Islands.

   The second major crisis for Portugal's neutrality came with increasing Allied pressures for concessions from the summer of 1943 to the summer of 1944. Led by Britain, Portugal's oldest ally, Portugal was pressured to grant access to air and naval bases in the Azores Islands. Such bases were necessary to assist the Allies in winning the Battle of the Atlantic, the naval war in which German U-boats continued to destroy Allied shipping. In October 1943, following tedious negotiations, British forces began to operate such bases and, in November 1944, American forces were allowed to enter the islands. Germany protested and made threats, but there was no German attack.

   Tensions rose again in the spring of 1944, when the Allies demanded that Lisbon cease exporting wolfram to Germany. Salazar grew agitated, considered resigning, and argued that Portugal had made a solemn promise to Germany that wolfram exports would be continued and that Portugal could not break its pledge. The Portuguese ambassador in London concluded that the shipping of wolfram to Germany was "the price of neutrality." Fearing that a still-dangerous Germany could still attack Portugal, Salazar ordered the banning of the mining, sale, and exports of wolfram not only to Germany but to the Allies as of 6 June 1944.

   Portugal did not enter the war as a belligerent, and its forces did not engage in combat, but some Portuguese experienced directly or indirectly the impact of fighting. Off Portugal or near her Atlantic islands, Portuguese naval personnel or commercial fishermen rescued at sea hundreds of victims of U-boat sinkings of Allied shipping in the Atlantic. German U-boats sank four or five Portuguese merchant vessels as well and, in 1944, a U-boat stopped, boarded, searched, and forced the evacuation of a Portuguese ocean liner, the Serpa Pinto, in mid-Atlantic. Filled with refugees, the liner was not sunk but several passengers lost their lives and the U-boat kidnapped two of the ship's passengers, Portuguese Americans of military age, and interned them in a prison camp. As for involvement in a theater of war, hundreds of inhabitants were killed and wounded in remote East Timor, a Portuguese colony near Indonesia, which was invaded, annexed, and ruled by Japanese forces between February 1942 and August 1945. In other incidents, scores of Allied military planes, out of fuel or damaged in air combat, crashed or were forced to land in neutral Portugal. Air personnel who did not survive such crashes were buried in Portuguese cemeteries or in the English Cemetery, Lisbon.

   Portugal's peripheral involvement in largely nonbelligerent aspects of the war accelerated social, economic, and political change in Portugal's urban society. It strengthened political opposition to the dictatorship among intellectual and working classes, and it obliged the regime to bolster political repression. The general economic and financial status of Portugal, too, underwent improvements since creditor Britain, in order to purchase wolfram, foods, and other materials needed during the war, became indebted to Portugal. When Britain repaid this debt after the war, Portugal was able to restore and expand its merchant fleet. Unlike most of Europe, ravaged by the worst war in human history, Portugal did not suffer heavy losses of human life, infrastructure, and property. Unlike even her neighbor Spain, badly shaken by its terrible Civil War (1936-39), Portugal's immediate postwar condition was more favorable, especially in urban areas, although deep-seated poverty remained.

   Portugal experienced other effects, especially during 1939-42, as there was an influx of about a million war refugees, an infestation of foreign spies and other secret agents from 60 secret intelligence services, and the residence of scores of international journalists who came to report the war from Lisbon. There was also the growth of war-related mining (especially wolfram and tin). Portugal's media eagerly reported the war and, by and large, despite government censorship, the Portuguese print media favored the Allied cause. Portugal's standard of living underwent some improvement, although price increases were unpopular.

   The silent invasion of several thousand foreign spies, in addition to the hiring of many Portuguese as informants and spies, had fascinating outcomes. "Spyland" Portugal, especially when Portugal was a key point for communicating with occupied Europe (1940-44), witnessed some unusual events, and spying for foreigners at least briefly became a national industry. Until mid-1944, when Allied forces invaded France, Portugal was the only secure entry point from across the Atlantic to Europe or to the British Isles, as well as the escape hatch for refugees, spies, defectors, and others fleeing occupied Europe or Vichy-controlled Morocco, Tunisia, and Algeria. Through Portugal by car, ship, train, or scheduled civil airliner one could travel to and from Spain or to Britain, or one could leave through Portugal, the westernmost continental country of Europe, to seek refuge across the Atlantic in the Americas.

   The wartime Portuguese scene was a colorful melange of illegal activities, including espionage, the black market, war propaganda, gambling, speculation, currency counterfeiting, diamond and wolfram smuggling, prostitution, and the drug and arms trade, and they were conducted by an unusual cast of characters. These included refugees, some of whom were spies, smugglers, diplomats, and business people, many from foreign countries seeking things they could find only in Portugal: information, affordable food, shelter, and security. German agents who contacted Allied sailors in the port of Lisbon sought to corrupt and neutralize these men and, if possible, recruit them as spies, and British intelligence countered this effort. Britain's MI-6 established a new kind of "safe house" to protect such Allied crews from German espionage and venereal disease infection, an approved and controlled house of prostitution in Lisbon's bairro alto district.

   Foreign observers and writers were impressed with the exotic, spy-ridden scene in Lisbon, as well as in Estoril on the Sun Coast (Costa do Sol), west of Lisbon harbor. What they observed appeared in noted autobiographical works and novels, some written during and some after the war. Among notable writers and journalists who visited or resided in wartime Portugal were Hungarian writer and former communist Arthur Koestler, on the run from the Nazi's Gestapo; American radio broadcaster-journalist Eric Sevareid; novelist and Hollywood script-writer Frederick Prokosch; American diplomat George Kennan; Rumanian cultural attache and later scholar of mythology Mircea Eliade; and British naval intelligence officer and novelist-to-be Ian Fleming. Other notable visiting British intelligence officers included novelist Graham Greene; secret Soviet agent in MI-6 and future defector to the Soviet Union Harold "Kim" Philby; and writer Malcolm Muggeridge. French letters were represented by French writer and airman, Antoine Saint-Exupery and French playwright, Jean Giroudoux. Finally, Aquilino Ribeiro, one of Portugal's premier contemporary novelists, wrote about wartime Portugal, including one sensational novel, Volframio, which portrayed the profound impact of the exploitation of the mineral wolfram on Portugal's poor, still backward society.

   In Estoril, Portugal, the idea for the world's most celebrated fictitious spy, James Bond, was probably first conceived by Ian Fleming. Fleming visited Portugal several times after 1939 on Naval Intelligence missions, and later he dreamed up the James Bond character and stories. Background for the early novels in the James Bond series was based in part on people and places Fleming observed in Portugal. A key location in Fleming's first James Bond novel, Casino Royale (1953) is the gambling Casino of Estoril. In addition, one aspect of the main plot, the notion that a spy could invent "secret" intelligence for personal profit, was observed as well by the British novelist and former MI-6 officer, while engaged in operations in wartime Portugal. Greene later used this information in his 1958 spy novel, Our Man in Havana, as he observed enemy agents who fabricated "secrets" for money.

   Thus, Portugal's World War II experiences introduced the country and her people to a host of new peoples, ideas, products, and influences that altered attitudes and quickened the pace of change in this quiet, largely tradition-bound, isolated country. The 1943-45 connections established during the Allied use of air and naval bases in Portugal's Azores Islands were a prelude to Portugal's postwar membership in the North Atlantic Treaty Organization (NATO).

Mushet, Robert Forester

SUBJECT AREA: Metallurgy

[br]

b. 8 April 1811 Coleford, Gloucestershire, England

d. 19 January 1891 Cheltenham, Gloucestershire, England

[br]

English steelmaker who invented the first alloy steel.

[br]

Mushet acquired his metallurgical knowledge in his father's ironworks at Coleford in the Forest of Dean. In 1848 his attention seems to have been drawn to the use of manganese in ironworking, in the form of spiegeleisen, an alloy of iron and manganese derived from a Prussian iron ore consisting essentially of a double carbonate of iron and manganese. This alloy came into its own in 1856 with the invention of the Bessemer steelmaking process, for Mushet found that if molten spiegeleisen was added to the Bessemer iron the quality of the product was greatly improved. Mushet patented this process, but when he failed to pay the stamp duty due in 1859 his rights lapsed. Bessemer independently discovered the use of spiegeleisen, although Mushet continued to maintain his priority.

Mushet's most important discovery was that of tungsten steel, the forerunner of a long line of alloy steels. While working a small crucible steelworks at Coleford, he was asked by a Scottish manufacturer to make a hard-metal tool, but he found that the metal was unsatisfactory. After experiments, he found that an alloy steel containing about 8 per cent tungsten possessed remarkable properties. It proved to be self-hardening, i.e. after forging and being allowed to cool, it was found to have become hardened, without the need for the heat treatment that was normally required. Also, unlike other hardened steels, it did not lose its hardness when heated even to dull-red heat. It would thus remain hard in a cutting tool that had run hot through deep cutting. Mushet's tungsten steel was brought into use in 1868 and was of great benefit to engineers, who were making increasing demands on cutting machines.

[br]

Further Reading

Biographical notice, 1878, Journal of the Iron and Steel Institute: 1–4.

LRD

печь

broiler, furnace, heater, oven, stove

* * *

печь ж.

1. furnace

загружа́ть печь — charge (e. g., a metal) into a furnace

печь остано́влена для сме́ны футеро́вки — the furnace is off for a relining

печь рабо́тает на (напр. жидком) [m2]то́пливе — the furnace is fired with (e. g., liquid) fuel

раста́пливать печь — fire up a furnace

топи́ть печь — fire a furnace

футерова́ть печь — line a furnace

2. (для нагрева до сравнительно невысоких температур, ниже температуры плавления) oven

3. (для обжига, сушки и прокаливания) kiln

4. (для сушки изложниц, форм и стержней) stove

5. (для выпечки хлеба, приготовления пищи) oven

6. (для обогрева, особенно жилища) stove

7. горн. breakthrough, bord, rise entry, cut-through

агломерацио́нная печь — sintering furnace

печь бараба́нного ти́па — drum-type furnace

бискви́тная печь — biscuit oven

ва́нная печь — bath [tank] furnace

ватержаке́тная печь — water jacket furnace

ва́фельная печь — wafer oven

возго́ночная печь — subliming furnace

восстанови́тельная печь — reduction furnace

враща́ющаяся печь

1. rotating furnace

2. rotary kiln

враща́ющаяся, бараба́нная печь — rotary drum-type furnace

вулканизацио́нная печь — vulcanizing [curing] oven

высокочасто́тная печь — high-frequency furnace

га́зовая печь

1. gas(-fired) furnace

2. gas(-fired) kiln; gas(-fired) oven

гартоплави́льная печь полигр. — type metal melting furnace

гипсообжига́тельная печь — plaster kiln

голла́ндская печь — Dutch oven

горшко́вая печь — pot furnace

дистилляцио́нная печь — distilling furnace

печь для глазурова́ния — glaze kiln

печь для кальцини́рования — calcining oven

печь для о́бжига кирпича́ — brick kiln

печь для па́йки — brazing furnace

печь для пла́вки на штейн — matting furnace

печь для рафини́рования — affinage furnace

до́менная печь — blast furnace (см. тж. домна)

выдува́ть до́менную печь — blow out a blast furnace

держа́ть до́менную печь под дутьё́м — keep a furnace in blast

задува́ть до́менную печь — blow in a blast furnace

до́менная печь с конве́йерной пода́чей — belt-charged blast furnace

дровяна́я печь — wood-burning stove

дугова́я печь — electric arc furnace

жарова́я печь — direct heat oven

печь, загружа́емая све́рху — top-charged furnace

зака́лочная печь — hardening furnace

зейгеро́вочная печь — liquating [dross(ing) ] furnace

золотоплави́льная печь — bullion furnace

известеобжига́тельная печь — lime kiln

индукцио́нная печь — induction furnace

индукцио́нная, кана́льная печь — submerged-resistor induction furnace

индукцио́нная, ти́гельная печь — coreless induction furnace

ка́мерная печь

1. chamber furnace

2. chamber kiln; chamber oven

кана́льная печь — hot-air oven

кача́ющаяся печь — tilting furnace

печь кипя́щего сло́я — fluidized bed furnace

кирпичеобжига́тельная печь — brick kiln

ки́слая печь — acid-lined furnace

ко́ксовая печь — coke oven

ко́ксовая печь с вертика́лами — vertical-flued coke oven

ко́ксовая печь с ула́вливанием хими́ческих проду́ктов — chemical-recovery coke oven

ко́ксовая, узкока́мерная печь — slab coke oven

ко́ксовая, у́льевая печь — beehive coke oven

коло́дезная печь метал. — pit furnace

колпако́вая печь — bell(-type) furnace

кольцева́я печь — ring [annular] furnace

конве́йерная печь — travelling oven

конта́ктная печь — catalyst furnace

копти́льная печь — smoking kiln

кузне́чная печь — forging furnace

купеляцио́нная печь — cupel(ing) furnace, cupel

печь лё́гкого кре́кинга — viscosity breaking furnace

лите́йная печь — foundry furnace

лю́лечная печь — (swinging-)tray oven

марте́новская печь — open-hearth furnace

марте́новская, ки́слая печь — acid open-hearth furnace

марте́новская, основна́я печь — basic open-hearth furnace

методи́ческая печь — continuous furnace

многопо́довая печь — multihearth furnace

многоя́русная печь — multideck oven

мусоросжига́тельная печь — incinerator

му́фельная печь — muffle furnace

нагрева́тельная печь — heating furnace; ( для слитков) reheating furnace

печь непреры́вного де́йствия

1. continuous furnace

2. continuous kiln

нормализацио́нная печь — normalizing furnace

обжа́рочная печь — roaster

о́бжиговая печь — kiln; oven, roasting furnace, roaster; ( в производстве керамических изделий) firing kiln

заде́лывать отве́рстия в о́бжиговой пе́чи — close the kiln

о́бжиговая, гонча́рная печь — pottery kiln

о́бжиговая, многопо́лочная печь ( для обжига колчедана) — multishelf furnace

о́бжиговая печь с кипя́щим сло́ем — fluidized-bed [fluid-bed] roaster

о́бжиговая печь с механи́ческим перегреба́нием — mechanical calcining oven

о́бжиговая, тру́бчатая враща́ющаяся печь — tubular rotary kiln

одноя́русная печь — one-deck oven

опа́лочная печь — singeing oven

основна́я печь — basic-lined furnace

отжига́тельная печь — annealing furnace

отража́тельная печь

1. reverberatory furnace

2. reverberatory kiln

печь периоди́ческого де́йствия

1. batch furnace

2. batch kiln, batch oven

плави́льная печь — melting furnace

плави́льная, ти́гельная печь — crucible melting furnace

плави́льная, ша́хтная печь — shaft melting furnace

пла́зменная печь — plasm furnace

плазменнодугова́я печь — plasm-arc furnace

пла́менная печь — combustion furnace

проби́рная печь — assay furnace

промы́шленная печь — industrial furnace

проходна́я печь — continuous furnace

печь прямо́го нагре́ва — directly fuel kiln

регенерати́вная печь — regenerative furnace

рекуперати́вная печь — recuperative furnace

рето́ртная печь — retort furnace

ро́торная печь — rotor furnace, rotor vessel

рудовосстанови́тельная печь — oresmelting furnace

руднотерми́ческая печь — ore-smelting furnace

рудообжига́тельная печь — ore-roasting furnace, ore roaster

рудоплави́льная печь — smelting furnace

рыбокопти́льная печь — fish smoking kiln

сва́рочная печь — welding furnace

печь с ве́рхним отопле́нием — top-fired kiln

печь с враща́ющимся по́дом

1. rotary [rotating] hearth furnace

2. rotary [rotating] hearth kiln; rotary [rotating] hearth oven

печь с выдвижны́м (выкатны́м) по́дом — car-bottom [car-type] furnace

печь с вы́пуском пла́вки в два ковша́ — bifurcated furnace

печь с конве́йерным по́дом

1. conveyer furnace

2. travelling sole oven

печь сопротивле́ния — (с электродами, вводимыми в шихту, которая разогревается проходящими через неё токами) resistance furnace; (с нагревательными элементами в виде сопротивлений, несоприкасающимися с шихтой) resistor furnace

сталеплави́льная печь — steel melting furnace

стациона́рная печь — fixed furnace

стеклова́ренная печь — glassmaking furnace

суши́льная печь — drying kiln; drying oven

суши́льная печь для сухаре́й — rusk oven

печь с шага́ющим по́дом — walking-beam furnace

терми́ческая печь — heat-treating furnace

ти́гельная печь — crucible furnace

толка́тельная печь — pusher-type furnace

томи́льная печь — soaking pit

тру́бчатая печь — tube furnace

тунне́льная печь — tunnel kiln; tunnel oven

углевыжига́тельная печь — charcoal kiln

форсу́ночная печь — burner-feed furnace

хлебопека́рная печь — baking oven

цельноосно́вная печь — all-basic furnace

цементацио́нная печь — case hardening furnace

цементообжига́тельная печь — cement kiln

печь цикло́нного ти́па — cyclone furnace

цинкодистилляцио́нная печь — zinc (distillation) furnace

ша́хтная печь — shaft furnace

ша́хтная, сыроду́тная печь — bloomery

ша́хтная, электри́ческая печь для хлори́рования ( в производстве магния) — electric chlorinator, chlorination furnace

шлаковозго́нная печь ( в производстве свинца) — slag-fuming [slag-sublimate on] furnace

щелева́я печь — slot-type furnace

электри́ческая печь — electric furnace

электродугова́я печь — electric arc furnace

электролити́ческая печь — electrolytic furnace

электроннолучева́я печь — electron beam furnace