-
1 non-ferrous rolling
Англо-русский словарь по прокатке металлов > non-ferrous rolling
-
2 non-ferrous rolling
Англо-русский словарь промышленной и научной лексики > non-ferrous rolling
-
3 non-ferrous rolling mill
Англо-русский словарь по прокатке металлов > non-ferrous rolling mill
-
4 rolling
□ rolling in pack form — прокатка листов пакетом
□ rolling off — раскатка (трубной заготовки)
□ rolling on edge — прокатка на ребро
- chequer plate rolling□ rolling out — вытяжка, удлинение
- coil rolling
- cold rolling
- continuous rolling
- contour rolling
- cross rolling
- diagonal type rolling
- die rolling
- dry rolling
- edge rolling
- endless rolling
- excessive rolling
- finish rolling
- flat rolling
- guide rolling
- helical rolling
- hot rolling
- intermediate rolling
- loop-mill rolling
- metal powder rolling
- multi-strand rolling
- non-ferrous rolling
- one-pass rolling
- one-strand rolling
- pair rolling
- pilgrim rolling
- planetary rolling
- plate rolling
- round rolling
- sandwich rolling
- screw rolling
- section rolling
- semi-tandem rolling
- sheath rolling
- skin rolling
- spread rolling
- straightaway rolling
- tandem rolling
- taper rolling
- temper rolling
- tight pack rolling
- tire rolling
- tongue-and-groove rolling
- two-strand rolling
- tyre rolling
- universal rolling -
5 mill
прокатный стан || прокатывать□ setting the mill — настройка стана
- 1-2 mill- 1-2-3 mill
- 1-2-3-4 mill
- 2-Hi universal type slabbing mill
- aluminium-cold mill
- aluminium-foil mill
- aluminum sheet mill
- armor-plate rolling mill
- armour-plate rolling mill
- Assel mill
- automatic mill
- automatic card-programmed rolling mill
- automatic plug-rolling mill
- balanced mill
- ball-rolling mill
- bar mill
- bar and shape mill
- barrel type roll piercing mill
- bar-rolling mill
- beam mill
- becking mill
- Belgian mill
- Belgian looping mill
- Belgian rod mill
- Belgian wire mill
- big mill
- billet mill
- blooming mill
- blooming-slabbing mill
- brass rolling mill
- break-down mill
- broad strip mill
- broadside mill
- butt-weld pipe mill
- close continuous mill
- cluster mill
- cogging mill
- coil-skin pass mill
- coil-temper mill
- cold-reducing mill
- cold-reduction mill
- cold-rolling mill
- cold-strip mill
- combination mill
- combination blooming-billet mill
- cone-roll piercing mill
- continuous mill
- continuous billet mill
- continuous butt-weld mill
- continuous hot-strip mill
- continuous repeater mill
- continuous rod mill
- continuous seamless-tube rolling mill
- continuous sheet-bar and billet mill
- continuous wide-strip hot mill
- continuous wire mill
- contour rolling mill
- conventional mill
- corrugating rolling mill
- cotton mill
- cross-country mill
- cross-country billet mill
- cross-country rolling mill
- descaling mill
- die rolling mill
- Diescher mill
- direct rolling mill
- disk mill
- double Belgian mill
- double duo mill
- double-stand rolling mill
- double-strand mill
- drag-over mill
- duo mill
- edger mill
- electric-weld pipe mill
- electronically operated mill
- expanding mill
- ferrous rolling mill
- finishing mill
- fishplate mill
- five-stand tandem mill
- flaking mill
- flat rolling mill
- flatting mill
- flat wire mill
- foil mill
- forming mill
- four-high mill
- four-high combination rolling mill
- four-high continuous hot strip mill
- four-high driven mill
- four-high reversing cold mill
- four-high reversing cold strip mill
- four-high rolling mill
- four-high tandem cold mill
- four-stand tandem mill
- four-stand tandem cold strip mill
- four-strand mill
- Fretz-Moon pipe mill
- Garret mill
- Garret looping rod mill
- Grey mill
- guide mill
- hand mill
- hand sheet mill
- heavy merchant mill
- heavy section mill
- high-lift blooming mill
- high-lift slabbing mill
- high-speed mill
- hoop mill
- hot mill
- hot-aluminium mill
- hot-pack mill
- hot-rolling mill
- hot-strip mill
- induction weld mill
- jobbing mill
- jobbing sheet-rolling mill
- jump mill
- lap-welded mill
- Lauth mill
- light-section mill
- looping mill
- looping merchant mill
- low-speed mill
- main mill
- mandrel mill
- Mannesmann mill
- Mannesmann piercing mill
- mechanized mill
- medium section mill
- medium wide-strip mill
- merchant mill
- merchant-bar mill
- metal powder rolling mill
- Morgan mill
- multiroll mill
- multistrand mill
- multistrand cold-tube rolling mill
- non-continuous rolling mill
- non-ferrous rolling mill
- non-reversing mill
- non-reversing rolling mill
- open continuous mill
- overhang roll type mill
- pack mill
- pass-over mill
- piercing mill
- pilger mill
- pilger seamless-tube mill
- pilgrim mill
- pinch pass mill
- pipe mill
- pipe and tube mill
- planetary hot mill
- planishing mill
- plate mill
- plug mill
- pony-roughing mill
- present day mill
- primary mill
- Properzi continuous casting and rolling mill
- puddle mill
- pull-over mill
- Puppe mill
- push mill
- quarto mill
- rail mill
- rail-and-structural steel mill
- rail-finishing mill
- rail-rerolling mill
- rail-slitting mill
- railway-wheel mill
- railway-wheel-and-tyre mill
- reducing mill
- reducing sizing mill
- reduction mill
- reeling mill
- reinforcing bar mill
- repiercing mill
- resistance weld mill
- revamped mill
- reversing mill
- reversing blooming mill
- reversing cold mill
- ring-rolling mill
- ring type cold-strip mill
- rockright mill
- rod mill
- rod repeater mill
- Roeckner tube rolling mill
- Rohn mill
- rolling mill
- rotary-rolling mill
- roughing mill
- run-down mill
- seamless-tube rolling mill
- section mill
- semi-continuous mill
- semi-continuous hot-strip mill
- semi-continuous wire-rod mill
- Sendzimir mill
- seven-stand forming mill
- shape mill
- shaping mill
- sheared plate mill
- sheet mill
- sheet-bar mill
- sheet-bar-and-billet mill
- sheet-skin pass mill
- sheet-temper mill
- single stand mill
- single strand mill
- sinking mill
- sinking-sizing mill
- six-high cluster mill
- six-roller mill
- sizing mill
- skelp mill
- skin mill
- slabbing mill
- small section mill
- solid wheel rolling mill
- spiral weld-pipe mill
- Steckel mill
- Stiefel mill
- stiff mill
- straddle type mill
- straight-away mill
- stretch-reducing mill
- strip mill
- structural mill
- supplementary mill
- tandem mill
- tandem cold mill
- tandem sheet mill
- tandem tin-plate mill
- taper mill
- temper mill
- tension reducing mill
- three-high mill
- three-high blooming mill
- three-high cogging mill
- three-high jobbing mill
- three-high rolling mill
- three-high roughing mill
- three-high shape mill
- three-high universal mill
- three-stand mill
- three-strand rod mill
- tie-plate mill
- tin mill
- tin-plate mill
- tire mill
- trio mill
- tube mill
- tube-forming mill
- tube-reducing mill
- tube-rolling mill
- tube stretch reducing mill
- tubular mill
- twelve-high reversing cluster mill
- twenty-high reversing cluster mill
- twenty-high roll mill
- two-high mill
- two-high blooming mill
- two-high cogging mill
- two-high combination rolling mill
- two-high plate mill
- two-high pull-over mill
- two-high reversing mill
- two-high reversing-beam mill
- two-high reversing-blooming mill
- two-high reversing-finishing mill
- two-high reversing-plate mill
- two-high rolling mill
- two-high sheet-rolling mill
- two-high universal mill
- two-stand mill
- two-stand tandem mill
- two-strand mill
- tyre mill
- unidirectional mill
- universal mill
- universal beam mill
- universal reversing-roughing mill
- universal roughing mill
- universal slabbing mill
- universal structural mill
- versatile precision-rolling mill
- welding mill
- welding-and-forming mill
- wheel-rolling mill
- wheel-web-rolling mill
- wide-flange beam mill
- wide-strip mill
- wire mill
- wire flattening mill
- wire-rod mill
- Y-mill
- Yoder pipe-and-tube mill -
6 металл
* * *мета́лл м.
metalдекати́ровать мета́лл — pickle a metalмета́лл застыва́ет — a metal solidifiesиспы́тывать мета́лл на (напр. поперечный изгиб) — test a metal for …; subject [put] a metal to (e. g., a transverse) testнаплавля́ть мета́лл — build up a metalнаплавля́ть мета́лл бо́лее твё́рдым — hard-face a metalмета́лл облада́ет хоро́шими лите́йными ка́чествами — a metal casts wellобраба́тывать мета́лл давле́нием — work [shape] a metal mechanicallyобраба́тывать мета́лл давле́нием в горя́чем состоя́нии — hot-work a metal, work a metal hot, subject a metal to hot workingобраба́тывать мета́лл давле́нием в холо́дном состоя́нии — cold-work a metal, work a metal cold, subject a metal to cold workingобраба́тывать мета́лл объё́мной штампо́вкой — work [shape] a metal by die forgingобраба́тывать мета́лл прессова́нием — work [shape] a metal by extrusion, extrude a metal shapeобраба́тывать мета́лл прока́ткой — work [shape] a metal by rollingобраба́тывать мета́лл ре́занием — machine a metalобраба́тывать мета́лл свобо́дной ко́вкой — ( под молотом) work [shape] a metal by hammering; ( под кузнечным прессом) work [shape] a metal by press forging [by pressing]обта́чивать мета́лл — turn a metal on a latheоцинко́вывать мета́лл — galvanize a metalпла́вить [получа́ть пла́вкой] мета́лл — smelt a metalмета́лл пла́вится [перехо́дит в жи́дкое состоя́ние] — a metal meltsплаки́ровать мета́лл — clad a metalмета́лл ползё́т — a metal creepsполуча́ть мета́лл из руды́ — extract [recover] a metal from an oreмета́лл принима́ет полиро́вку (напр. хорошо, плохо) — a metal takes a polish (e. g., well, poorly), a metal is capable of taking a polishмета́лл раздаё́тся (напр. при прокатке) — a metal spreads (e. g., in rolling)мета́лл течё́т — a metal flows [creeps]трави́ть мета́лл — pickle a metalадмиралте́йский мета́лл — admiralty gun metal«бе́лый» мета́лл — white metalблагоро́дный мета́лл — noble metalвагра́ночный мета́лл — cupola metalвтори́чный мета́лл — secondary metalвторостепе́нный мета́лл — minor metalмета́лл высо́кой чистоты́ — high-purity metalвысокосо́ртный мета́лл — high-test metalвя́зкий мета́лл — tough metalгранули́рованный мета́лл — granulated metalгото́вый мета́лл — finished metalжаропро́чный мета́лл — high-temperature metalжи́дкий мета́лл — molten metalзерка́льный мета́лл — speculum (metal)кислотоупо́рный мета́лл — acid-proof metalкислотоусто́йчивый мета́лл — acid-resistant metalкоррозионносто́йкий мета́лл — non-corrosive metalлеги́рующий мета́лл — alloying metalлё́гкий мета́лл — light [low-density] metalлегкопла́вкий мета́лл — low-melting-point [fusible] metalлистово́й мета́лл — sheet metalлистово́й, волни́стый мета́лл — corrugated sheet metalлистово́й, оцинко́ванный мета́лл — galvanized sheet metalлите́йный мета́лл — cast metalма́точный мета́лл — mother metalмета́лл, мя́гко отожжё́нный — soft-annealed metalмета́лл, нанесё́нный распыле́нием — sprayed metalнапла́вленный мета́лл — built-up [deposited] metalнеблагоро́дный мета́лл — base metalмета́лл, недоста́точно теку́чий в жи́дком состоя́нии — sluggish metalмета́лл, обраба́тываемый давле́нием — wrought metalосновно́й мета́лл свар. — base [parent] metalосновно́й мета́лл в зо́не терми́ческого влия́ния свар. — heat-affected base metalмета́лл осо́бой чистоты́ — (extra) high-purity metalперви́чный мета́лл — primary metalпережжё́нный мета́лл — burned metalпереходно́й мета́лл — transition metalплаки́рованный мета́лл — clad metalмета́лл повы́шенной частоты́ — higher-purity metalподши́пниковый мета́лл — bearing metalполосово́й мета́лл — flatsмета́лл пони́женной чистоты́ — lower-purity metalпо́ристый мета́лл — foamed metalпорошко́вый мета́лл — powdered metalприса́дочный мета́лл свар. — filler metalпроби́рный мета́лл — test metalпросто́й мета́лл — elementary metalрадиоакти́вный мета́лл — radioactive metalрассе́янный ре́дкий мета́лл — trace rare metalредкоземе́льный мета́лл — rare-earth metalсаморо́дный мета́лл — native metalмета́лл сва́рочного шва — weld metalсвязу́ющий мета́лл — binding metalмета́лл с ни́зким коэффицие́нтом расшире́ния — low-expansion metalтугопла́вкий мета́лл — refractory metalмета́лл усиле́ния шва — weld-reinforcement metalхими́чески акти́вный мета́лл — reactive metalхими́чески чи́стый мета́лл — chemically pure metalхолоднодеформи́руемый мета́лл — cold-shaped metalхру́пкий мета́лл — brittle metalцветно́й мета́лл — non-ferrous metalчерново́й мета́лл — crude metalчё́рный мета́лл — ferrous metalчу́шковый мета́лл — pig metalщёлочноземе́льный мета́лл — alkali(ne)-earth metalщелочно́й мета́лл — alkali metalэлектро́дный мета́лл — electrode metal -
7 metal
1) металл
2) металлический
3) металлоделательный
4) паросветный
– acid-proof metal
– acid-resistant metal
– admiralty gun metal
– aircraft metal
– alkali metal
– alkali-earth metal
– alloying metal
– arsenic metal
– assay metal
– barrier-layer metal
– base metal
– bearing metal
– bell metal
– beryllium metal
– binding metal
– blow metal
– brittle metal
– build up metal
– built-up metal
– burned metal
– cast metal
– clad metal
– cold-shaped metal
– crude metal
– cucopa metal
– electrode metal
– elementary metal
– fatigue of metal
– ferrous metal
– finished metal
– flow of metal
– flux metal
– foamed metal
– galvanize metal
– granulated metal
– high-purity metal
– high-temperature metal
– high-test metal
– higher-purity metal
– in the bulk of a metal
– introduction of gas in metal
– laminated metal
– light metal
– liquid metal
– low-melting-point metal
– lower-purity metal
– machine metal
– metal catalysis
– metal characteristic
– metal coated
– metal coating
– metal construction
– metal cord
– metal creeps
– metal detection
– metal detector
– metal insulator
– metal metls
– metal mount
– metal oxide
– metal pot
– metal production
– metal rectifier
– metal research
– metal run-out
– metal shot
– metal solidifies
– metal spinning
– metal splashing
– metal spray
– metal spreads
– metal transfer
– minor metal
– misch metal
– molten metal
– mother metal
– native metal
– noble metal
– non-corrosive metal
– non-ferrous metal
– parent metal
– pickle metal
– pig metal
– ply metal
– pouring of metal
– powdered metal
– primary metal
– radioactive metal
– rare-earth metal
– reactive metal
– refractory metal
– removal of metal
– scrap metal
– secondary metal
– sheet metal
– slopping of metal
– smelt metal
– sprayed metal
– test metal
– tough metal
– transition metal
– weld metal
– weld-reinforcement metal
– white metal
rolling of sheet metal — литейно-прокатный, листопрокатный
-
8 металл
м. metalиспытывать металл на — test a metal for …; subject a metal to test
обрабатывать металл свободной ковкой — work a metal by hammering; work a metal by press forging
«белый» металл — white metal
-
9 Mannesmann, Reinhard
SUBJECT AREA: Metallurgy[br]b. 13 May 1856 Remscheid, Bleidinghausen, Germanyd. 22 February 1922 Remscheid, Bleidinghausen, Germany[br]German metallurgical engineer.[br]Reinhard Mannesmann and his four brothers developed the engineering works at Remscheid that had been founded by their father. With his brother Max, Reinhard devised c. 1885 a method of producing seamless tubes by a rolling process. Factories for manufacturing tubes by this process were established at Remscheid, at Bous in the Saar district and at Komotau in Bohemia. Further developments of the process were patented by the brothers in the years following the initial patent of 1885. The British patent rights for the Mannesmann process were purchased by the Landore Siemens Steel Company in 1888, and the Mannesmann Tube Company was established at Landore in South Wales. This company went into liquidation in 1899 after ten years of production and the Tube Works was then purchased by the Mannesmann family, and a new company, the British Mannesmann Tube Company, was formed. Reinhard and Max Mannesmann took up residence near the Landore works and the business prospered so that by 1914 Landore was employing 1,500 men and producing 35,000 tons of tubing each year. The company was taken over during the First World War by the Custodian of Enemy Property, and after the war a new tube works which had been planned in 1914 was built at Newport, Monmouthshire. The Mannesmann family were able to resume control in 1926 for some ten years, but in 1938 the company became part of the Stewarts \& Lloyds organization.[br]Further ReadingG.Evans, 1934, Manufacture of Seamless Tubes Ferrous and Non-Ferrous, London; 1940, Proceedings of the Institution of Mechanical Engineers 143:62–3 (both provide technical details of the Mannesmann process for forming seamless tubes).RTS -
10 цех
department, ( завода) floor, house, plant, production unit, room, shop, shopfloor, workshop* * *цех м.
shop, department, plantбессеме́ровский цех — Bessemer plantцех блю́минга — blooming mill departmentбонда́рный цех — cooperage shopброшюро́вочный цех — book-stitching shopвагоноремо́нтный цех — carriage repair shopвспомога́тельный цех — service shop, service departmentцех вулканиза́ции — vulcanization shop, vulcanization departmentгальвани́ческий цех — electroplating shopцех глубо́кой печа́ти — gravure departmentдеревообраба́тывающий цех — wood-working shopдо́менный цех — blast-furnace plantдуби́льный цех — tan room, tanyardзаготови́тельный цех — blanking shopзо́льный цех кож. — lime yardинструмента́льный цех — tool (maker) shop, toolroomкала́ндровый цех — calendering shopкислоро́дно-конве́ртерный цех — oxygen-converter plantконсе́рвный цех — canning [preserving] shopкормоприготови́тельный цех — feed preparation shopкузне́чный цех — forge shopлите́йный цех — foundryлуди́льный цех — tinning plantмарте́новский цех — open-hearth plantмехани́ческий цех — machine shopмоде́льный цех — pattern shopмонта́жный цех — erecting shop; ( монтажа электропроводки) wiring shopнабо́рный цех — composing roomо́пытный цех — pilot shopосновно́й цех ( в отличие от вспомогательных) — producing [production] department (contrasts with service departments)цех отгру́зки гото́вой проду́кции — shipping departmentотде́лочный цех1. finishing shop, finishing department2. кож. currying shopпереде́льный цех прок. — rerolling departmentпереплё́тный цех — book bindery, bookbinding departmentпеча́тный цех — pressroom, printing departmentподготови́тельный цех рез. — stockpreparation shopпрока́тный цех — rolling-mill shopразли́вочный цех метал. — casting plantремо́нтный цех — repair [maintenance] shopсбо́рочный цех — assembling [assembly] shop, assembling departmentсва́рочный цех — welding shopсталелите́йный цех — steel(-casting) departmentсталеплави́льный цех — steelmaking plantтерми́ческий цех — heat-treating departmentфо́рмный цех полигр. — plateroom, plate departmentформо́вочный цех — moulding shopцех холо́дной листово́й штампо́вки — sheet-metal pressworking shopцех холо́дной объё́мной штампо́вки — cold-die-forging shopцех цветно́го литья́ — non-ferrous foundryчугунолите́йный цех — iron foundryэлектроремо́нтный цех — electrical repair shopэлектросталеплави́льный цех — electric-furnace (melting) shopцех электроста́нции, коте́льный — boiler departmentцех электроста́нции, маши́нный — engine [turbine] departmentцех электроста́нции, турби́нный — turbine department* * * -
11 Junghans, Siegfried
SUBJECT AREA: Metallurgy[br]b. 1887d. 1954[br]German pioneer of the continuous casting of metals.[br]Junghans was of the family that owned Gebrüder Junghans, one of the largest firms in the German watch-and clockmaking industry. From 1906 to 1918 he served in the German Army, after which he took a course in metallurgy and analytical chemistry at the Technical High School in Stuttgart. Junghans was then given control of the brassworks owned by his family. He wanted to make castings simply and cheaply, but he found that he lacked the normal foundry equipment. By 1927, formulating his ideas on continuous casting, he had conceived a way of overcoming this deficiency and began experiments. By the time the firm was taken over by Wieland-Werke AG in 1931, Junghans had achieved positive results. A test plant was erected in 1932, and commercial production of continuously cast metal followed the year after. Wieland told Junghans that a brassfounder who had come up through the trade would never have hit on the idea: it took an outsider like Junghans to do it. He was made Technical Director of Wielands but left in 1935 to work privately on the development of continuous casting for all metals. He was able to license the process for non-ferrous metals during 1936–9 in Germany and other countries, but the Second World War interrupted his work; however, the German government supported him and a production plant was built. In 1948 he was able to resume work on the continuous casting of steel, which he had been considering since 1936. He pushed on in spite of financial difficulties and produced the first steel by this process at Schorndorf in March 1949. From 1950 he made agreements with four firms to work towards the pilot plant stage, and this was achieved in 1954 at Mannesmann's Huckingen works. The aim of continuous casting is to bypass the conventional processes of casting molten steel into ingots, reheating the ingots and shaping them by rolling them in a large mill. Essentially, in continuous casting, molten steel is drawn through the bottom of a ladle and down through a water-cooled copper mould. The unique feature of Junghans's process was the vertically reciprocating mould, which prevented the molten metal sticking as it passed through. A continuous length of steel is taken off and cooled until it is completely solidified into the required shape. The idea of continuous casting can be traced back to Bessemer, and although others tried to apply it later, they did not have any success. It was Junghans who, more than anybody, made the process a reality.[br]Further ReadingK.Sperth and A.Bungeroth, 1953, "The Junghans method of continuous casting of steel", Metal Treatment and Drop Forging, Mayn.J.Jewkes et al., 1969, The Sources of Invention, 2nd edn, London: Macmillan, pp. 287 ff.LRD -
12 Morrison, William Murray
[br]b. 7 October 1873 Birchwood, Inverness-shire, Scotlandd. 21 May 1948 London, England[br]Scottish pioneer in the development of the British aluminium industry and Highlands hydroelectric energy.[br]After studying at the West of Scotland Technical College in Glasgow, in January 1895 Morrison was appointed Engineer to the newly formed British Aluminium Company Limited (BAC); it was with this organization that he spent his entire career. The company secured the patent rights to the Héroult and Bayer processes. It constructed a 200 tonne per year electrolytic plant at Foyers on the shore of Loch Ness, together with an adjacent 5000 kW hydroelectric scheme, and it built an alumina factory at Larne Harbour in north-eastern Ireland. Morrison was soon Manager at Foyers, and he became the company's Joint Technical Adviser. In 1910 he was made General Manager, and later he was appointed Managing Director. Morrison successfully brought about improvements in all parts of the production process; between 1915 and 1930 he increased the size of individual electrolytic cells by a factor of five, from 8,000 to 40,000 amperes. Soon after 1901, BAC built a second works for electrolytic reduction, at Kinlochleven in Argyllshire, where the primary design originated from Morrison. In the 1920s a third plant was erected at Fort William, in the lee of Ben Nevis, with hydroelectric generators providing some 75 MW. Alumina factories were constructed at Burntisland on the Firth of Forth and, in the 1930s, at Newport in Monmouthshire. Rolling mills were developed at Milton in Staffordshire, Warrington, and Falkirk in Stirlingshire, this last coming into use in the 1940s, by which time the company had a primary-metal output of more than 30,000 tonnes a year. Morrison was closely involved in all of these developments. He retired in 1946 as Deputy Chairman of BAC.[br]Principal Honours and DistinctionsCommander of the Order of St Olav of Norway 1933 (BAC had manufacturing interests in Norway). Knighted 1943. Vice-Chairman, British Non-Ferrous Metals Research Association, Faraday Society, Institute of Metals. Institute of Metals Platinum Medal 1942.Bibliography1939, "Aluminium and highland water power", Journal of the Institute of Metals 65:17– 36 (seventeenth autumn lecture),See also: Hall, Charles MartinJKABiographical history of technology > Morrison, William Murray
См. также в других словарях:
Condition monitoring — is the process of monitoring a parameter of condition in machinery, such that a significant change is indicative of a developing failure. It is a major component of predictive maintenance. The use of conditional monitoring allows maintenance to… … Wikipedia
Vale (mining company) — Vale S.A. Type Sociedade Anônima Traded as BM F Bovespa … Wikipedia
Kolchug-Mizar — Russian tableware plant Kolchug Mizar is the largest manufacturer of tableware, plate and cutlery in Russia. It was founded in 1871. The plant is situated not far from Moscow (Kolchugino, Vladimir region). Kolchugino plant is well known most… … Wikipedia
Metalworking — Machining a bar of metal on a lathe. Metalworking is the process of working with metals to create individual parts, assemblies, or large scale structures. The term covers a wide range of work from large ships and bridges to precise engine parts… … Wikipedia
Užice — Infobox Serbia municipality native name = Ужице|official name=Užice common name = Užice image shield = Uzice.jpg district = Zlatibor mayor = Jovan Markovic (DS) area km2 = 667 population total = 63577 | mpop=83022 latd = 43| latm = 87|longd = 19| … Wikipedia
Casting (metalworking) — Casting iron in a sand mold In metalworking, casting involves pouring liquid metal into a mold, which contains a hollow cavity of the desired shape, and then allowing it to cool and solidify. The solidified part is also known as a casting, which… … Wikipedia
Bass guitar — A Music Man Stingray bass String instrument Other names Bass, electric bass guitar, electric bass. Classification … Wikipedia
Sitakunda Upazila — Infobox of upazilas native name = Sitakunda locator position = right latd = 22.6167 longd = 91.6611 division name = Chittagong Division district = Chittagong District population as of = 1991 population total = 274903 population density = 568 area … Wikipedia
Cold sizing — is a squeezing operation performed at temperatures significantly below the melting point to finish the surface of a workpiece to ensure better dimensional accuracy and surface finish. The sizing operation is a squeezing operation that minimizes… … Wikipedia
Rail profile — Rail from 1896 Cross sections of flat bottomed which can rest directly … Wikipedia
Electric arc furnace — An electric arc furnace (EAF) is a furnace that heats charged material by means of an electric arc. Arc furnaces range in size from small units of approximately one ton capacity (used in foundries for producing cast iron products) up to about 400 … Wikipedia