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1 iron and steel industry
производство чугуна и стали
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[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]EN
iron and steel industry
Sector of the metallurgical industry dealing with the production of cast iron, steel and iron alloys. Emissions from these industries tend to settle quickly from the atmosphere and can lead to rising concentrations in the soil. The main raw material input to the production process is iron ore. Also recycled scrap is used. (Source: FLGISA / DOBRIS)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]Тематики
EN
DE
FR
черная металлургия
Отрасль тяжелой индустрии, включ. комплекс взаимосвяз. подотраслей: собственно металлургич. (доменное, сталеплавильное, прокатное), трубное и метизное произ-ва, добычу, обогащение и окускование рудного сырья, коксохимич. произ-во, произ-во ферросплавов и огнеупоров, добычу нерудного сырья и переработку лома для ЧМ и вторичную обработку черных металлов.
[ http://metaltrade.ru/abc/a.htm]Тематики
EN
Англо-русский словарь нормативно-технической терминологии > iron and steel industry
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2 iron
iron ['aɪən](a) (made of, containing iron) de fer, en fer∎ iron discipline une discipline de fer;∎ an iron hand or fist in a velvet glove une main de fer dans un gant de velours(laundry) repasser(laundry) se repasser4 noun∎ made of iron de ou en fer;∎ she has a will of iron elle a une volonté de fer;∎ the iron and steel industry la sidérurgie;∎ (as) hard as iron dur comme ou aussi dur que le fer∎ spinach has a high iron content les épinards contiennent beaucoup de fer(c) (for laundry) fer m (à repasser);∎ your shirt needs an iron ta chemise a besoin d'un coup de fer ou d'être repassée(d) (tool, appliance) fer m;∎ to have many irons in the fire avoir plusieurs fers au feu∎ a five iron un fer cinq(chains) fers mpl;∎ clap them in irons! mettez-les aux fers!►► the Iron Age l'âge m du fer;∎ an Iron Age tool un outil de l'âge du fer;iron bar barre f de fer;iron bridge pont m en fer;History Iron Chancellor chancelier m de fer;the Iron Curtain le rideau de fer;∎ the Iron Curtain countries les pays mpl de l'Est;Medicine iron deficiency carence f en fer;familiar Technology iron fairy grue□ f;iron filings limaille f de fer;iron foundry fonderie f (de fonte);an iron grating une grille en fer;Medicine iron lung poumon m d'acier;iron maiden = instrument de torture consistant en un coffre à l'intérieur parsemé de pointes, dans lequel on place la victime;Mineralogy iron ore minerai m de fer;Mineralogy iron oxide oxyde m de fer;iron pyrites Mineralogy pyrite f (de fer);Golf iron shot coup m de fer;Industry Iron and Steel Trades Confederation = syndicat britannique des ouvriers de la sidérurgie;Medicine iron tablet comprimé m de fer;an iron will une volonté de fer∎ have you ironed out your differences? est-ce que vous avez résolu vos différends? -
3 iron
1. noun1) ((also adjective) (of) an element that is the most common metal, is very hard, and is widely used for making tools etc: Steel is made from iron; The ground is as hard as iron; iron railings; iron determination (= very strong determination).) hierro2) (a flat-bottomed instrument that is heated up and used for smoothing clothes etc: I've burnt a hole in my dress with the iron.) plancha3) (a type of golf-club.) palo de hierro
2. verb(to smooth (clothes etc) with an iron: This dress needs to be ironed; I've been ironing all afternoon.) planchar- ironing- irons
- ironing-board
- ironmonger
- ironmongery
- have several
- too many irons in the fire
- iron out
- strike while the iron is hot
iron1 adj de hierroiron2 n1. hierro2. planchairon3 vb planchartr['aɪən]1 (metal) hierro2 (appliance) plancha3 (for golf) hierro, palo de hierro1 de hierro1 (clothes) planchar1 planchar\SMALLIDIOMATIC EXPRESSION/SMALLto have an iron constitution ser de hierro, tener una salud de hierroto have a will of iron / have an iron will tener una voluntad de hierroto have many irons in the fire tener muchas cosas entre manosto put/clap somebody in irons encadenar a alguiento strike while the iron is hot lo mejor es actuar de inmediatoIron Age Edad de HierroIron Cross cruz nombre femenino de hierroIron Curtain telón nombre masculino de aceroiron foundry fundición nombre femenino (de hierro)iron grey gris oscuroiron lung pulmón nombre masculino de aceroiron maiden dama de hierroiron ore mineral nombre masculino de hierroiron ['aɪərn] v: planchariron n1) : hierro m, fierro ma will of iron: una voluntad de hierro, una voluntad férrea2) : plancha f (para planchar la ropa)adj.• de hierro adj.• férreo, -a adj.n.• hierro s.m.• plancha s.f.n.m.• hierro (Química) s.m.v.• herrar v.• planchar v.
I 'aɪərn, 'aɪən1) ua) ( metal) hierro m, fierro m (AmL)as hard as iron — (duro) como el acero
the ground will be as hard as iron after all this frost — la tierra va a estar como piedra después de esta helada
to strike while the iron is hot: there's nothing like striking while the iron's hot lo mejor es actuar de inmediato; (before n) the Iron Age — la Edad de Hierro
b) ( in food) hierro m2) ( for clothes) plancha f3)a) ( branding iron) hierro m de marcarto have several/too many irons in the fire — tener* varias/demasiadas cosas entre manos
b) ( golf club) hierro mc) ( gun) (AmE sl) pistola f, pusca f (Esp arg)
II
a) ( made of iron) de hierrob) ( strong) (before n) < constitution> de hierro, fuerte como un roble; <will/resolve> férreo, de hierro
III
transitive/intransitive verb plancharPhrasal Verbs:- iron out['aɪǝn]1. N1) (=metal) hierro m, fierro m (LAm)corrugated iron — chapa f ondulada
with an iron hand or fist — con mano de hierro
a will of iron — una voluntad férrea or de hierro
- have a lot of/too many irons in the fire- strike while the iron is hotto put or clap sb in irons — poner grilletes or grillos a algn, aherrojar a algn
3) (Golf) hierro m4) (for ironing clothes) plancha f5) (for branding) hierro m candente6) * (=gun) pistola f2.VT [+ clothes] planchar3.VI [person] planchar4.CPD [bridge, bar, tool] de hierro, de fierro (LAm); (fig) [will, determination] férreoIron Cross N — cruz f de hierro
the Iron Curtain N — (Hist) (Pol) el telón de acero, la cortina de hierro (LAm)
iron foundry N — fundición f, fundidora f (LAm)
the Iron Lady N — (Brit) (Pol) la Dama de Hierro
iron lung N — (Med) pulmón m de acero
iron oxide N — óxido m de hierro
iron pyrites N — pirita f ferruginosa
iron rations NPL — ración f or víveres mpl de reserva
- iron out* * *
I ['aɪərn, 'aɪən]1) ua) ( metal) hierro m, fierro m (AmL)as hard as iron — (duro) como el acero
the ground will be as hard as iron after all this frost — la tierra va a estar como piedra después de esta helada
to strike while the iron is hot: there's nothing like striking while the iron's hot lo mejor es actuar de inmediato; (before n) the Iron Age — la Edad de Hierro
b) ( in food) hierro m2) ( for clothes) plancha f3)a) ( branding iron) hierro m de marcarto have several/too many irons in the fire — tener* varias/demasiadas cosas entre manos
b) ( golf club) hierro mc) ( gun) (AmE sl) pistola f, pusca f (Esp arg)
II
a) ( made of iron) de hierrob) ( strong) (before n) < constitution> de hierro, fuerte como un roble; <will/resolve> férreo, de hierro
III
transitive/intransitive verb plancharPhrasal Verbs:- iron out -
4 ♦ iron
♦ iron /ˈaɪən/A n.1 [u] ( anche fig.) ferro: Iron is heavier than aluminium, il ferro è più pesante dell'alluminio; wrought iron, ferro battuto; as hard as iron, duro come il ferro; a man of iron, un uomo di ferro (o inflessibile)2 strumento di ferro; ferro da stiro: Don't leave the iron on the table, non lasciare il ferro (da stiro) sul tavolo!3 (pl.) ferri; catene; ceppi: to be put in irons, esser messo ai ferri (o in catene); to clap sb. in irons, sbattere q. in catene5 [u] (med.) ricostituente a base di ferroB a. attr.1 di ferro ( anche fig.); ferreo; forte; duro; tenace; spietato: an iron ring, un anello di ferro; iron gates, cancelli di ferro; an iron crown, una corona ferrea; an iron constitution, una salute di ferro2 color ferro; ferrigno● the Iron Age, l'età del ferro □ iron-and-steel industry, industria siderurgica □ (bot.) iron-bark, tipo di eucalipto australiano che fornisce legname da costruzione □ iron-bound, cerchiato di ferro; ( di costa) chiusa da scogli; (fig.) inflessibile, rigoroso, severo □ (fig., stor.) the iron curtain, la cortina di ferro □ (fig.) the iron fist (o hand) in the velvet glove, pugno di ferro in guanto di velluto □ iron foundry, fonderia di ghisa □ iron grey, (color) grigio ferro □ iron-handed, inflessibile; rigoroso; severo □ iron-hearted, crudele; spietato □ ( slang ingl., spreg.) iron hoof, finocchio; frocio □ (fig. fam. arc.) iron horse, cavallo d'acciaio; bicicletta; locomotiva a vapore □ (fam. USA) iron house, carcere; prigione □ (stor.) the Iron Lady, la Signora di Ferro ( Margaret Thatcher) □ iron-like, simile al ferro □ (med.) iron lung, polmone d'acciaio □ (stor.) iron maiden, vergine di Norimberga ( strumento di tortura) □ iron man, (fam.) tipo instancabile; automa, robot; ( slang USA) dollaro (spec. d'argento) □ iron metallurgy, siderurgia □ iron mould, macchia di ruggine □ iron ore, minerale di ferro □ ( slang USA) iron pumper, sollevatore di pesi; pesista □ (mil.: un tempo) iron rations, razioni d'emergenza; viveri di riserva □ (ind. costr.) iron rod, ferro tondo; tondino □ iron will, volontà di ferro □ iron wire, fil di ferro □ (ind.) iron worker, (operaio) siderurgico □ iron working, siderurgia □ (fig.) to have too many (o several) irons in the fire, avere troppa carne al fuoco (fig.) □ to rule with a rod of iron (o with an iron hand), governare con mano (o con pugno) di ferro □ (prov.) to strike while the iron is hot, battere il ferro finché è caldo.(to) iron /ˈaɪən/A v. t.2 munire di ferro; rivestire di ferroB v. i.● to iron out, togliere, eliminare col ferro ( da stiro: pieghe, ecc.); (fig.) eliminare, appianare ( divergenze, ecc.); ( slang USA) stendere (fig. fam.), ammazzare ( con un'arma da fuoco): to iron out difficulties, appianare (o eliminare) le difficoltà. -
5 industry
nto convert the industry to peaceful production — конвертировать военную промышленность (на товары массового спроса)
to relocate one's industries — переносить свои предприятия в другое место
to restore industry — возрождать / восстанавливать промышленность
- aerospace industryto sell off an industry — продавать частным владельцам / денационализировать отрасль промышленности
- agricultural industry
- aircraft industry
- allied industries
- ancillary industries
- armaments industry
- arms industry
- atomic industry
- auto industry
- automobile industry
- auxiliary industry
- baby industries
- basic industries
- building industry
- capital goods industries
- capital-intensive industry
- chemical industry
- cinematographic industry
- construction industry
- consumer goods industry
- cottage industry
- craft industry
- defense industries
- defense-related industries
- development of national industry
- diversified industry
- domestic industry
- efficient industry
- electric-power industry
- electronics industry
- electrotechnical industry
- energy industry
- engineering industry
- entertainment industry
- export industries
- export-promoting industries
- extractive industry
- fabricating industry
- farming industry
- ferrous metal industry
- film industry
- food industry
- food-processing industry
- forest industry
- fuel and power industries
- fuel industry
- heavy industry
- high tech industry
- highly developed industries
- home industry
- import-substituting industries
- import-substitution industries
- industries with non-stop production
- infant industry
- instruction industry
- instrument-making industry
- iron and steel industry
- key industry
- labor-consuming industries
- labor-intensive industries
- large-scale industry
- leisure-time industries
- light industry
- local industry
- machine-building industry
- machine-tool industry
- manufacturing industry
- maritime industry
- metal-working industry
- mining industry
- monopolistic industry
- monopolized industry
- motor-car industry
- national industry
- nationalized industry
- nuclear industry
- nuclear-power industry
- oil industry
- oil-extracting industry
- petrochemical industry
- petroleum industry
- power industry
- primary industry
- printing industry
- priority industries
- processing industries
- public industries
- publicly-owned industries
- radio engineering industry
- regional industry
- rural industry
- science-consuming industry
- science-intensive industry
- secondary industry
- service industries
- service-producing industries
- shipbuilding industry
- small-scale industries
- state industry
- state-controlled industry
- state-owned industry
- steel industry
- sunrise industry
- sunset industry
- technically advanced industry
- technology industry
- technology-intensive industry
- tourist industry
- trade industry
- traditional industries
- travel industry
- uneconomic industries
- up-to-date industry
- user industries
- vital industries
- war industry
- weapon industry -
6 iron
iron, US [transcription]["aI\@rn"]A n1 ( metal) fer m ; old ou scrap iron ferraille f ; iron and steel works/industry usine/industrie f sidérurgique ; a man/will of iron fig un homme/une volonté de fer ;2 ( for clothes) fer m (à repasser) ; electric iron fer m électrique ; with a hot/cool iron à fer chaud/doux ; to run the iron over sth, to give sth an iron donner un coup de fer à qch ;4 ( splint) attelle f ;5 Med fer m.E vtr repasser [clothes] ; do not iron ( on label) ne pas repasser ; to iron sth under a damp cloth repasser qch à la pattemouille.F vi [person] repasser ; [garment, fabric] se repasser.to have a lot of irons in the fire avoir beaucoup d'affaires en train ; the iron had entered his soul littér il avait la mort dans l'âme ; to strike while the iron is hot battre le fer pendant qu'il est chaud.■ iron out:▶ iron out [sth], iron [sth] out1 lit faire partir [qch] au fer [creases] ; -
7 ♦ steel
♦ steel /sti:l/A n.1 [uc] (metall.) acciaio ( anche fig.): high (o hard) steel, acciaio duro; soft (o mild, low) steel, acciaio dolce; bar steel, acciaio in barre; high-grade steels, acciai ad alta resistenza; stainless steel, acciaio inossidabile; a grip of steel, una stretta (o una presa, una morsa) d'acciaio; muscles of steel, muscoli d'acciaio5 (poet.) arma bianca; spada; pugnale; acciaro (poet.)6 [u] (fig.) volontà di ferro; grande tenaciaB a. attr.1 di acciaio; in acciaio: steel casting, getto d'acciaio; steel casing, involucro protettivo in acciaio; rivestimento d'acciaio2 (= iron-and-steel) dell'acciaio; siderurgico: steel industry, industria siderurgica; industria dell'acciaio● (mus.) steel band, gruppo che suona barili d'acciaio □ ( ginnastica) steel bar, barra d'acciaio □ steel blue, blu acciaio □ (metall.) steel bronze, bronzo navale □ steel cap, elmetto d'acciaio □ (econ., ind.) steel centre, centro siderurgico □ steel-clad, rivestito d'acciaio; corazzato □ ( grafica) steel engraving, incisione su acciaio; stampa fatta da un'incisione su acciaio □ steel founder, fonditore di acciaio □ (edil.) steel-frame building, edificio dalla struttura in acciaio □ (fig.) steel-hearted, dal cuore di pietra □ steel manufacturer, siderurgico ( industriale dell'acciaio) □ a steel pen, un pennino d'acciaio □ a steel plate, una lastra di acciaio □ steel-plated, ricoperto d'acciaio, acciaiato; blindato, corazzato □ steel-plate worker, lamierista □ steel tube, tubo d'acciaio □ steel wool, lana d'acciaio; paglietta di ferro □ (ind.) steel workers, (operai) metallurgici.(to) steel /sti:l/v. t.2 (fig.) fortificare; temprare; indurire; rendere spietato; corazzare (fig.)● to steel oneself, diventare insensibile (o spietato); indurirsi; farsi coraggio; farsi animo: to steel oneself for the enemy attack, farsi animo in previsione dell'attacco nemico; prepararsi all'attacco nemico; to steel oneself to do st.; prepararsi (o disporsi) a fare qc. -
8 steel
sti:l
1. noun, adjective(of) a very hard alloy of iron and carbon, used for making tools etc: tools of the finest steel; steel knives/chisels; He had a grip of steel (= a very strong grip).
2. verb(to harden and strengthen (oneself, one's nerves etc) in preparation for doing, or resisting, something: He steeled himself to meet the attack / to tell his wife the truth.)- steely- steeliness
- steel wool
- steelworks
steel n acerotr[stiːl]1 (gen) acero1 (knife, girder, etc) de acero\SMALLIDIOMATIC EXPRESSION/SMALLto have nerves of steel tener nervios de aceroto steel one's heart endurecerseto steel oneself against something hacerse fuerte para hacer frente a algoto steel oneself for something armarse de valor para algosteel band SMALLMUSIC/SMALL banda de percusión del Caribesteel industry industria siderúrgicasteel mill acerería, aceríasteel wool estropajo de acerosteel ['sti:l] vtto steel oneself : armarse de valorsteel adj: de acerosteel n: acero madj.• acerado, -a adj.• de acero adj.n.• acero s.m.• chaira s.f.• eslabón s.m.v.• acerar v.• endurecer v.
I stiːl
II
reflexive verb[stiːl]to steel oneself FOR something/to + INF — armarse de valor para algo/para + inf
1. N1) (=metal) acero mnerves of steel — nervios mpl de acero
- fight with cold steel2.VTto steel o.s. — fortalecerse ( against contra)
to steel o.s. for sth — cobrar ánimo para algo
to steel o.s. to do sth — cobrar ánimo para hacer algo
3.CPD de acerosteel band N — (Mus) banda de percusión del Caribe
steel guitar N — guitarra f de cordaje metálico
steel helmet N — casco m (de acero)
steel industry N — industria f siderúrgica
steel maker, steel manufacturer N — fabricante mf de acero
steel mill N — fundición f, fundidora f (LAm)
steel tape N — cinta f métrica de acero
steel wool N — estropajo m de aluminio
* * *
I [stiːl]
II
reflexive verbto steel oneself FOR something/to + INF — armarse de valor para algo/para + inf
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9 steel
1. nounStahl, der2. attributive adjectivestählern; Stahl[helm, -block, -platte]3. transitive verbsteel oneself for/against something — sich für/gegen etwas wappnen (geh.)
steel oneself to do something — allen Mut zusammennehmen, um etwas zu tun
* * *[sti:l] 1. noun, adjective(of) a very hard alloy of iron and carbon, used for making tools etc: tools of the finest steel; steel knives/chisels; He had a grip of steel (= a very strong grip). der Stahl, Stahl-...2. verb(to harden and strengthen (oneself, one's nerves etc) in preparation for doing, or resisting, something: He steeled himself to meet the attack / to tell his wife the truth.) sich wappnen- academic.ru/70557/steely">steely- steeliness
- steel wool
- steelworks* * *[sti:l]I. nnerves of \steel Nerven pl wie Drahtseile4.\steel beam [or girder] Stahlträger m\steel pipe Stahlrohr nt\steel strut Stahlstrebe fIII. vt▪ to \steel oneself [to do sth] all seinen Mut zusammennehmen[, um etw zu tun]* * *[stiːl]1. nStahl m; (= sharpener) Wetzstahl m; (for striking spark) Feuerstahl mhe felt cold steel between his ribs — er spürte den kalten Stahl zwischen den Rippen
as hard as steel — stahlhart, so hart wie Stahl
See:→ nerve2. adj attrStahl-3. vtto steel oneself — sich wappnen ( for gegen); (physically) sich stählen (for für)
to steel oneself to do sth — allen Mut zusammennehmen, um etw zu tun
to steel oneself against sth — sich gegen etw hart machen or verhärten
he steeled his troops for the battle — er machte seiner Truppe Mut für den Kampf; (physically) er stählte seine Truppe für den Kampf
* * *steel [stiːl]A s1. Stahl m:a) Stähle,b) Börse: Stahlaktien;of steel → B;a) Wetzstahl mb) Feuerstahl mc) Korsettstäbchen n4. fig Kraft f, Härte fB adj stählern:b) fig stahlhartC v/t2. fig stählen, wappnen:steel o.s. for (against) sth sich für (gegen) etwas wappnen;he steeled his heart against compassion er verschloss sich dem Mitleid* * *1. nounStahl, der2. attributive adjectivestählern; Stahl[helm, -block, -platte]3. transitive verbsteel oneself for/against something — sich für/gegen etwas wappnen (geh.)
steel oneself to do something — allen Mut zusammennehmen, um etwas zu tun
* * *n.Stahl nur sing. m. -
10 Steel
I 1. [stiːl]1) (metal) acciaio m.2) (knife sharpener) acciaino m.2.modificatore [bodywork, plate] d'acciaio; [ industry] siderurgico; [ manufacturer] del settore siderurgico; [ production] dell'acciaioII 1. [stiːl]verbo transitivo tecn. acciaiare2.to steel oneself — armarsi di coraggio, farsi forza
* * *[sti:l] 1. noun, adjective(of) a very hard alloy of iron and carbon, used for making tools etc: tools of the finest steel; steel knives/chisels; He had a grip of steel (= a very strong grip). acciaio; d'acciaio2. verb(to harden and strengthen (oneself, one's nerves etc) in preparation for doing, or resisting, something: He steeled himself to meet the attack / to tell his wife the truth.) (farsi coraggio)- steely- steeliness
- steel wool
- steelworks* * *(Surnames) Steel, Steele /sti:l/* * *I 1. [stiːl]1) (metal) acciaio m.2) (knife sharpener) acciaino m.2.modificatore [bodywork, plate] d'acciaio; [ industry] siderurgico; [ manufacturer] del settore siderurgico; [ production] dell'acciaioII 1. [stiːl]verbo transitivo tecn. acciaiare2.to steel oneself — armarsi di coraggio, farsi forza
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11 Carnegie, Andrew
SUBJECT AREA: Metallurgy[br]b. 25 November 1835 Dunfermline, Fife, Scotlandd. 11 August 1919 Lenox, Massachusetts, USA[br]Scottish industrialist and philanthropist.[br]Andrew Carnegie was a highly successful entrepreneur and steel industrialist rather than an engineer, but he made a significant contribution to engineering both through his work in industry and through his philanthropic and educational activities. His parents emigrated to the United States in 1848 and the family settled in Pennsylvania. Beginning as a telegraph boy in Pittsburgh in 1850, the young Carnegie rose through successful enterprises in railways, bridges, locomotives and rolling stock, pursuing a process of "Vertical integration" in the iron and steel industry which led to him becoming the leading American ironmaster by 1881. His interests in the Carnegie Steel Company were incorporated in the United States Steel Corporation in 1901, when Carnegie retired from business and devoted himself to philanthropy. He was particularly involved in benefactions to provide public libraries in the United States, Great Britain and other English-speaking countries. Remembering his ancestry, he was especially generous toward Scottish universities, as a result of which he was elected Rector of the University of St Andrews, Scotland's oldest university, by its students. Other large endowments were made for funds in recognition of heroic deeds, and he financed the building of the Temple of Peace at The Hague.[br]Bibliography1889, The Gospel of Wealth (sets out his views on the responsible use of riches).Further ReadingJ.F.Wall, 1989, Andrew Carnegie, Pittsburgh: University of Pittsburgh Press.AB -
12 Ilgner, Karl
SUBJECT AREA: Electricity[br]b. 27 July 1862 Neisse, Upper Silesia (now Nysa, Poland)d. 18 January 1921 Berthelsdorf, Silesia[br]German electrical engineer, inventor of a transformer for electromotors.[br]Ilgner graduated from the Gewerbeakademie (the forerunner of the Technical University) in Berlin. As the representative of an electric manufacturing company in Breslau (now Wroclaw, Poland) from 1897, he was confronted with the fact that there were no appropriate drives for hoisting-engines or rolling-plants in steelworks. Two problems prevented the use of high-capacity electric motors in the mining as well as in the iron and steel industry: the reactions of the motors on the circuit at the peak point of stress concentration; and the complicated handling of the control system which raised the risks regarding safety. Having previously been head of the department of electrical power transmission in Hannover, he was concerned with the development of low-speed direct-current motors powered by gas engines.It was Harry Ward Leonard's switchgear for direct-current motors (USA, 1891) that permitted sudden and exact changes in the speed and direction of rotation without causing power loss, as demonstrated in the driving of a rolling sidewalk at the Paris World Fair of 1900. Ilgner connected this switchgear to a large and heavy flywheel which accumulated the kinetic energy from the circuit in order to compensate shock loads. With this combination, electric motors did not need special circuits, which were still weak, because they were working continuously and were regulated individually, so that they could be used for driving hoisting-engines in mines, rolling-plants in steelworks or machinery for producing tools and paper. Ilgner thus made a notable advance in the general progress of electrification.His transformer for hoisting-engines was patented in 1901 and was commercially used inter alia by Siemens \& Halske of Berlin. Their first electrical hoisting-engine for the Zollern II/IV mine in Dortmund gained international reputation at the Düsseldorf exhibition of 1902, and is still preserved in situ in the original machine hall of the mine, which is now a national monument in Germany. Ilgner thereafter worked with several companies to pursue his conception, became a consulting engineer in Vienna and Breslau and had a government post after the First World War in Brussels and Berlin until he retired for health reasons in 1919.[br]Bibliography1901, DRP no. 138, 387 1903, "Der elektrische Antrieb von Reversier-Walzenstraßen", Stahl und Eisen 23:769– 71.Further ReadingW.Kroker, "Karl Ilgner", Neue Deutsche Biographie, Vol. X, pp. 134–5. W.Philippi, 1924, Elektrizität im Bergbau, Leipzig (a general account).K.Warmbold, 1925, "Der Ilgner-Umformer in Förderanlagen", Kohle und Erz 22:1031–36 (a detailed description).WK -
13 Riley, James
SUBJECT AREA: Metallurgy[br]b. 1840 Halifax, Englandd. 15 July 1910 Harrogate, England[br]English steelmaker who promoted the manufacture of low-carbon bulk steel by the open-hearth process for tin plate and shipbuilding; pioneer of nickel steels.[br]After working as a millwright in Halifax, Riley found employment at the Ormesby Ironworks in Middlesbrough until, in 1869, he became manager of the Askam Ironworks in Cumberland. Three years later, in 1872, he was appointed Blast-furnace Manager at the pioneering Siemens Steel Company's works at Landore, near Swansea in South Wales. Using Spanish ore, he produced the manganese-rich iron (spiegeleisen) required as an additive to make satisfactory steel. Riley was promoted in 1874 to be General Manager at Landore, and he worked with William Siemens to develop the use of the latter's regenerative furnace for the production of open-hearth steel. He persuaded Welsh makers of tin plate to use sheets rolled from lowcarbon (mild) steel instead of from charcoal iron and, partly by publishing some test results, he was instrumental in influencing the Admiralty to build two naval vessels of mild steel, the Mercury and the Iris.In 1878 Riley moved north on his appointment as General Manager of the Steel Company of Scotland, a firm closely associated with Charles Tennant that was formed in 1872 to make steel by the Siemens process. Already by 1878, fourteen Siemens melting furnaces had been erected, and in that year 42,000 long tons of ingots were produced at the company's Hallside (Newton) Works, situated 8 km (5 miles) south-east of Glasgow. Under Riley's leadership, steelmaking in open-hearth furnaces was initiated at a second plant situated at Blochairn. Plates and sections for all aspects of shipbuilding, including boilers, formed the main products; the company also supplied the greater part of the steel for the Forth (Railway) Bridge. Riley was associated with technical modifications which improved the performance of steelmaking furnaces using Siemens's principles. He built a gasfired cupola for melting pig-iron, and constructed the first British "universal" plate mill using three-high rolls (Lauth mill).At the request of French interests, Riley investigated the properties of steels containing various proportions of nickel; the report that he read before the Iron and Steel Institute in 1889 successfully brought to the notice of potential users the greatly enhanced strength that nickel could impart and its ability to yield alloys possessing substantially lower corrodibility.The Steel Company of Scotland paid dividends in the years to 1890, but then came a lean period. In 1895, at the age of 54, Riley moved once more to another employer, becoming General Manager of the Glasgow Iron and Steel Company, which had just laid out a new steelmaking plant at Wishaw, 25 km (15 miles) south-east of Glasgow, where it already had blast furnaces. Still the technical innovator, in 1900 Riley presented an account of his experiences in introducing molten blast-furnace metal as feed for the open-hearth steel furnaces. In the early 1890s it was largely through Riley's efforts that a West of Scotland Board of Conciliation and Arbitration for the Manufactured Steel Trade came into being; he was its first Chairman and then its President.In 1899 James Riley resigned from his Scottish employment to move back to his native Yorkshire, where he became his own master by acquiring the small Richmond Ironworks situated at Stockton-on-Tees. Although Riley's 1900 account to the Iron and Steel Institute was the last of the many of which he was author, he continued to contribute to the discussion of papers written by others.[br]Principal Honours and DistinctionsPresident, West of Scotland Iron and Steel Institute 1893–5. Vice-President, Iron and Steel Institute, 1893–1910. Iron and Steel Institute (London) Bessemer Gold Medal 1887.Bibliography1876, "On steel for shipbuilding as supplied to the Royal Navy", Transactions of the Institute of Naval Architects 17:135–55.1884, "On recent improvements in the method of manufacture of open-hearth steel", Journal of the Iron and Steel Institute 2:43–52 plus plates 27–31.1887, "Some investigations as to the effects of different methods of treatment of mild steel in the manufacture of plates", Journal of the Iron and Steel Institute 1:121–30 (plus sheets II and III and plates XI and XII).27 February 1888, "Improvements in basichearth steel making furnaces", British patent no. 2,896.27 February 1888, "Improvements in regenerative furnaces for steel-making and analogous operations", British patent no. 2,899.1889, "Alloys of nickel and steel", Journal of the Iron and Steel Institute 1:45–55.Further ReadingA.Slaven, 1986, "James Riley", in Dictionary of Scottish Business Biography 1860–1960, Volume 1: The Staple Industries (ed. A.Slaven and S. Checkland), Aberdeen: Aberdeen University Press, 136–8."Men you know", The Bailie (Glasgow) 23 January 1884, series no. 588 (a brief biography, with portrait).J.C.Carr and W.Taplin, 1962, History of the British Steel Industry, Harvard University Press (contains an excellent summary of salient events).JKA -
14 Talbot, Benjamin
SUBJECT AREA: Metallurgy[br]b. 19 September 1864 Wellington, Shropshire, Englandd. 16 December 1947 Solberge Hall, Northallerton, Yorkshire, England[br]Talbot, William Henry Fox English steelmaker and businessman who introduced a technique for producing steel "continuously" in large tilting basic-lined open-hearth furnaces.[br]After spending some years at his father's Castle Ironworks and at Ebbw Vale Works, Talbot travelled to the USA in 1890 to become Superintendent of the Southern Iron and Steel Company of Chattanooga, Tennessee, where he initiated basic open-hearth steelmaking and a preliminary slag washing to remove silicon. In 1893 he moved to Pennsylvania as Steel Superintendent at the Pencoyd works; there, six years later, he began his "continuous" steelmaking process. Returning to Britain in 1900, Talbot marketed the technique: after ten years it was in successful use in Britain, continental Europe and the USA; it promoted the growth of steel production.Meanwhile its originator had joined the Cargo Fleet Iron Company Limited on Teesside, where he was made Managing Director in 1907. Twelve years later he assumed, in addition, the same position in the allied South Durham Steel and Iron Company Limited. While remaining Managing Director, he was appointed Deputy Chairman of both companies in 1925, and Chairman in 1940. The companies he controlled survived the depressed 1920s and 1930s and were significant contributors to British steel output, with a capacity of more than half a million tonnes per year.[br]Principal Honours and DistinctionsPresident, Iron and Steel Institute 1928, and (British) National Federation of Iron and Steel Manufacturers. Iron and Steel Institute (London) Bessemer Gold Medal 1908. Franklin Institute (Philadelphia), Elliott Cresson Gold Medal, and John Scott Medal 1908.Bibliography1900, "The open-hearth continuous steel process", Journal of the Iron and Steel Institute 57 (1):33–61.1903, "The development of the continuous open-hearth process", Journal of the Iron and Steel Institute 63(1):57–73.1905, "Segregation in steel ingots", Journal of the Iron and Steel Institute 68(2):204–23. 1913, "The production of sound steel by lateral compression of the ingot whilst its centre is liquid", Journal of the Iron and Steel Institute 87(1):30–55.Further ReadingG.Boyce, 1986, entry in Dictionary of Business Biography, Vol. V, ed. J.Jeremy, Butterworth.W.G.Willis, 1969, South Durham Steel and Iron Co. Ltd, South Durham Steel and Iron Company Ltd (includes a few pages specifically on Talbot, and a portrait photo). J.C.Carr and W.Taplin, 1962, History of the British Steel Industry, Cambridge, Mass.: Harvard University Press (mentions Talbot's business attitudes).JKA -
15 Alleyne, Sir John Gay Newton
SUBJECT AREA: Metallurgy[br]b. 8 September 1820 Barbadosd. 20 February 1912 Falmouth, Cornwall, England[br]English iron and steel manufacturer, inventor of the reversing rolling mill.[br]Alleyne was the heir to a baronetcy created in 1769, which he succeeded to on the death of his father in 1870. He was educated at Harrow and at Bonn University, and from 1843 to 1851 he was Warden at Dulwich College, to the founder of which the family claimed to be related.Alleyne's business career began with a short spell in the sugar industry at Barbados, but he returned to England to enter Butterley Iron Works Company, where he remained for many years. He was at first concerned with the production of rolled-iron girders for floors, especially for fireproof flooring, and deck beams for iron ships. The demand for large sections exceeded the capacity of the small mills then in use at Butterley, so Alleyne introduced the welding of T-sections to form the required H-sections.In 1861 Alleyne patented a mechanical traverser for moving ingots in front of and behind a rolling mill, enabling one person to manipulate large pieces. In 1870 he introduced his major innovation, the two-high reversing mill, which enabled the metal to be passed back and forth between the rolls until it assumed the required size and shape. The mill had two steam engines, which supplied the motion in opposite directions. These two inventions produced considerable economies in time and effort in handling the metal and enabled much heavier pieces to be processed.During Alleyne's regime, the Butterley Company secured some notable contracts, such as the roof of St Paneras Station, London, in 1868, with the then-unparalleled span of 240 ft (73 m). The manufacture and erection of this awe-inspiring structure was a tribute to Alleyne's abilities. In 1872 he masterminded the design and construction of the large railway bridge over the Old Maas at Dordrecht, Holland. Alleyne also devised a method of determining small quantities of phosphorus in iron and steel by means of the spectroscope. In his spare time he was a skilled astronomical observer and metalworker in his private workshop.[br]Bibliography1875, "The estimation of small quantities of phosphorus in iron and steel by spectrum analysis", Journal of the Iron and Steel Institute: 62.Further ReadingObituary, 1912, Journal of the Iron and Steel Institute: 406–8.LRDBiographical history of technology > Alleyne, Sir John Gay Newton
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16 Dudley, Dud
SUBJECT AREA: Metallurgy[br]b. 1599d. 25 October 1684 Worcester, England[br]English ironmaster who drew attention to the need to change from charcoal to coal as a fuel for iron smelting.[br]Dudley was the fourth natural son of Edward Sutton, fifth Baron Dudley. In 1619 he was summoned from Balliol College, Oxford, to superintend his father's ironworks at Pensnet in Worcestershire. There had long been concern at the destruction of the forests in order to make charcoal for the smelting of iron ore, and unsuccessful attempts had been made to substitute coal as a fuel. Finding that charcoal was in short supply and coal plentiful near Pensnet, Dudley was stimulated by these attempts to try the process for himself. He claimed to have made good, marketable iron and in 1621 his father obtained a patent from the King to protect his process for thirty-one years. After a serious flood, Dudley moved to Staffordshire and continued his efforts there. In 1639 he was granted a further patent for making iron with coal. Although he probably made some samples of good iron, more by luck than judgement, it is hardly possible that he achieved consistent success. He blamed this on the machinations of other ironmasters. The day that King Charles II landed in England to assume his throne', Dudley petitioned him to renew his patents, but he was refused and he ceased to promote his invention. In 1665, however, he published his celebrated book Metallum Martis, Iron Made with Pit-Coaky Sea-Coale…. In this he described his efforts in general terms, but neither there nor in his patents does he give any technical details of his methods. He implied the use of slack or small coal from the Staffordshire Thick or Ten Yard coal, but this has a sulphur content that would have rendered the iron unusable; in addition, this coal would not have been suitable for converting to coke in order to remove the sulphur. Nevertheless, Dudley recognized the need to change from charcoal to coal as a fuel for iron smelting and drew attention to it, even though he himself achieved little success.[br]Further ReadingH.R.Schubert, 1957, History of the British Iron and Steel Industry AD 430 to AD 1775, London: Routledge \& Kegan Paul.W.K.V.Gale, 1967, The British Iron and Steel Industry: A Technical History, London (provides brief details of Dudley's life in relation to the history of ironmaking).LRD -
17 Monell, Ambrose
SUBJECT AREA: Metallurgy[br]b. 1874 New York, USAd. 2 May 1921 Beacon, New York, USA[br]American metallurgist who gave his name to a successful nickel-copper alloy.[br]After graduating from Columbia University in 1896. Monell became a metallurgical engineer to the Carnegie Steel Company, rising in six years to be Assistant to the President. In 1900, while Manager of the company's open-hearth steelworks at Pittsburg, he patented a procedure for making high-carbon steel in basic conditions on the hearth of a fixed/stationary furnace; the method was intended to refine pig-iron containing substantial proportions of phosphorus and to do so relatively quickly. The process was introduced at the Homestead Works of the Carnegie Steel Company in February 1900, where it continued in use for some years. In April 1902 Monell was among those who launched the International Nickel Company of New Jersey in order to bring together a number of existing nickel interests; he became the new company's President. In 1904–5, members of the company's metallurgical staff produced an alloy of about 70 parts nickel and 30 copper which seemed to show great commercial promise on account of its high resistance to corrosion and its good appearance. Monell agreed to the suggestion that the new alloy should be given his name; for commercial reasons it was marketed as "Monel metal". In 1917, following the entry of the USA into the First World War, Monell was commissioned Colonel in the US Army (Aviation) for overseas service, relinquishing his presidency of the International Nickel Company but remaining as a director. At the time of his death he was also a director in several other companies in the USA.[br]Bibliography1900, British patent no. 5506 (taken out by O. Imray on behalf of Monell).Monell insinuated an account of his steel-making procedure at a meeting of the Iron and Steel Institute held in London and reported in The Journal of the Iron and SteelInstitute (1900) 1:71–80; some of the comments made by other speakers, particularly B.Talbot, were adverse. The following year (1901) Monell produced a general historical review: "A summary of development in open-hearth steel", Iron TradeReview 14(14 November):39–47.Further ReadingA.J.Wadhams, 1931, "The story of the nickel industry", Metals and Alloys 2(3):166–75 (mentions Monell among many others, and includes a portrait (p. 170)).JKA -
18 Darby, Abraham
SUBJECT AREA: Metallurgy[br]b. 1678 near Dudley, Worcestershire, Englandd. 5 May 1717 Madely Court, Coalbrookdale, Shropshire, England[br]English ironmaster, inventor of the coke smelting of iron ore.[br]Darby's father, John, was a farmer who also worked a small forge to produce nails and other ironware needed on the farm. He was brought up in the Society of Friends, or Quakers, and this community remained important throughout his personal and working life. Darby was apprenticed to Jonathan Freeth, a malt-mill maker in Birmingham, and on completion of his apprenticeship in 1699 he took up the trade himself in Bristol. Probably in 1704, he visited Holland to study the casting of brass pots and returned to Bristol with some Dutch workers, setting up a brassworks at Baptist Mills in partnership with others. He tried substituting cast iron for brass in his castings, without success at first, but in 1707 he was granted a patent, "A new way of casting iron pots and other pot-bellied ware in sand without loam or clay". However, his business associates were unwilling to risk further funds in the experiments, so he withdrew his share of the capital and moved to Coalbrookdale in Shropshire. There, iron ore, coal, water-power and transport lay close at hand. He took a lease on an old furnace and began experimenting. The shortage and expense of charcoal, and his knowledge of the use of coke in malting, may well have led him to try using coke to smelt iron ore. The furnace was brought into blast in 1709 and records show that in the same year it was regularly producing iron, using coke instead of charcoal. The process seems to have been operating successfully by 1711 in the production of cast-iron pots and kettles, with some pig-iron destined for Bristol. Darby prospered at Coalbrookdale, employing coke smelting with consistent success, and he sought to extend his activities in the neighbourhood and in other parts of the country. However, ill health prevented him from pursuing these ventures with his previous energy. Coke smelting spread slowly in England and the continent of Europe, but without Darby's technological breakthrough the ever-increasing demand for iron for structures and machines during the Industrial Revolution simply could not have been met; it was thus an essential component of the technological progress that was to come.Darby's eldest son, Abraham II (1711–63), entered the Coalbrookdale Company partnership in 1734 and largely assumed control of the technical side of managing the furnaces and foundry. He made a number of improvements, notably the installation of a steam engine in 1742 to pump water to an upper level in order to achieve a steady source of water-power to operate the bellows supplying the blast furnaces. When he built the Ketley and Horsehay furnaces in 1755 and 1756, these too were provided with steam engines. Abraham II's son, Abraham III (1750–89), in turn, took over the management of the Coalbrookdale works in 1768 and devoted himself to improving and extending the business. His most notable achievement was the design and construction of the famous Iron Bridge over the river Severn, the world's first iron bridge. The bridge members were cast at Coalbrookdale and the structure was erected during 1779, with a span of 100 ft (30 m) and height above the river of 40 ft (12 m). The bridge still stands, and remains a tribute to the skill and judgement of Darby and his workers.[br]Further ReadingA.Raistrick, 1989, Dynasty of Iron Founders, 2nd edn, Ironbridge Gorge Museum Trust (the best source for the lives of the Darbys and the work of the company).H.R.Schubert, 1957, History of the British Iron and Steel Industry AD 430 to AD 1775, London: Routledge \& Kegan Paul.LRD -
19 Sellers, William
SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering[br]b. 19 September 1824 Upper Darby, Pennsylvania, USAd. 24 January 1905 Philadelphia, Pennsylvania, USA[br]American mechanical engineer and inventor.[br]William Sellers was educated at a private school that had been established by his father and other relatives for their children, and at the age of 14 he was apprenticed for seven years to the machinist's trade with his uncle. At the end of his apprenticeship in 1845 he took charge of the machine shop of Fairbanks, Bancroft \& Co. in Providence, Rhode Island. In 1848 he established his own factory manufacturing machine tools and mill gearing in Philadelphia, where he was soon joined by Edward Bancroft, the firm becoming Bancroft \& Sellers. After Bancroft's death the name was changed in 1856 to William Sellers \& Co. and Sellers served as President until the end of his life. His machine tools were characterized by their robust construction and absence of decorative embellishments. In 1868 he formed the Edgemoor Iron Company, of which he was President. This company supplied the structural ironwork for the Centennial Exhibition buildings and much of the material for the Brooklyn Bridge. In 1873 he reorganized the William Butcher Steel Works, renaming it the Midvale Steel Company, and under his presidency it became a leader in the production of heavy ordnance. It was at the Midvale Steel Company that Frederick W. Taylor began, with the encouragement of Sellers, his experiments on cutting tools.In 1860 Sellers obtained the American rights of the patent for the Giffard injector for feeding steam boilers. He later invented his own improvements to the injector, which numbered among his many other patents, most of which related to machine tools. Probably Sellers's most important contribution to the engineering industry was his proposal for a system of screw threads made in 1864 and later adopted as the American national standard.Sellers was a founder member in 1880 of the American Society of Mechanical Engineers and was also a member of many other learned societies in America and other countries, including, in Britain, the Institution of Mechanical Engineers and the Iron and Steel Institute.[br]Principal Honours and DistinctionsChevalier de la Légion d'honneur 1889. President, Franklin Institute 1864–7.Further ReadingJ.W.Roe, 1916, English and American Tool Builders, New Haven; reprinted 1926, New York, and 1987, Bradley, Ill. (describes Sellers's work on machine tools).Bruce Sinclair, 1969, "At the turn of a screw: William Sellers, the Franklin Institute, and a standard American thread", Technology and Culture 10:20–34 (describes his work on screw threads).RTS -
20 Rowland, Thomas Fitch
SUBJECT AREA: Mining and extraction technology[br]b. 15 March 1831 New Haven, Connecticut, USAd. 13 December 1907 New York City, USA[br]American engineer and manufacturer, inventor of off-shore drilling.[br]The son of a grist miller, Rowland worked in various jobs until 1859 when he established his own business for the construction of wooden and iron steamships and for structural iron works, in Greenpoint, Long Island, New York. In 1860 he founded the Continental Works and during the American Civil War he started manufacturing gun carriages and mortar beds. He fitted out many vessels for the navy, and as a contractor for John Ericsson he built heavily armoured war vessels.He continued shipbuilding, but later diversified his business. He devoted great attention to the design of gas-works, constructing innovative storage facilities all over the United States, and he was concerned with the improvement of welding iron and steel plates and other processes in the steel industry. In the late 1860s he also began the manufacture of steam-engines and boilers for use in the new but expanding oil industry. In 1869 he took out a patent for a fixed platform for drilling for oil off-shore up to a depth of 15 m (49 ft). With this idea, just ten years after Edwin Drake's success in on-shore oil drilling in Titusville, Pennsylvania, Rowland pioneered the technology of off-shore drilling for petroleum in which the United States later became the leading nation.[br]Principal Honours and DistinctionsAmerican Society of Civil Engineers: Director 1871–3, Vice-President 1886–7, Honorary Member 1899.Further Reading"Thomas Fitch Rowland", Dictionary of American Biography.1909, "Memoir", Transactions of the American Society of Civil Engineers 62:547–9.WK
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