iron+ore+industry

железорудная промышленность

iron ore industry

железорудная промышленность

1) Engineering: iron ore industry, iron-ore industry

2) Economy: iron industry

3) Metallurgy: iron-mining industry

производство чугуна и стали

1. iron and steel industry

 

производство чугуна и стали
—
[ 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

• охрана окружающей среды

EN

• iron and steel industry

DE

• Eisen- und Stahlindustrie

FR

• industrie sidérurgique

minería

f.

mining, mining industry, mine laying.

* * *

minería

► nombre femenino

1 (técnica) mining

2 (mineros) miners plural

3 (industria) mining industry

* * *

noun f.

mining

* * *

SF mining

* * *

femenino mining industry

* * *

= mining.

Ex. Eligible projects include mining, quarrying, processing, packaging, hotels, tourist facilities and services which can benefit industry or tourism.

----

* minería de datos = data mining.

* minería de hierro = iron ore mining.

* minería de textos = text-mining.

* * *

femenino mining industry

* * *

= mining.

Ex: Eligible projects include mining, quarrying, processing, packaging, hotels, tourist facilities and services which can benefit industry or tourism.

* minería de datos = data mining.

* minería de hierro = iron ore mining.

* minería de textos = text-mining.

* * *

minería

feminine

mining industry

* * *

minería sustantivo femenino
mining industry
minería sustantivo femenino
1 (industria) mining industry
la minería española, the Spanish mining industry
2 Téc mining
' minería' also found in these entries:
Spanish:
decaer
English:
mining

* * *

minería nf

1. [técnica] mining

2. [sector] mining industry

* * *

minería

f mining

* * *

minería nf

: mining

Darby, Abraham

SUBJECT AREA: Metallurgy

[br]

b. 1678 near Dudley, Worcestershire, England

d. 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 Reading

A.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

Eisenblech

Eisenblech
sheet iron, iron plate;
• Eisenerz iron ore;
• Eisenerzbergbau iron-ore mining;
• Eisenhandel ironmongering (Br.);
• Eisenhütte ironworks;
• die Eisenindustrie (Börse) the iron interest;
• Eisen- und Stahlindustrie iron and steel industry;
• Eisen- und Nichteisenmetallerzeugung iron and non-ferrous metals production.

Dudley, Dud

SUBJECT AREA: Metallurgy

[br]

b. 1599

d. 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 Reading

H.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

красная охра

1) General subject: keel, raddle, red ochre, ruddle

2) Geology: earthy haematite, earthy red iron ore, red hematite, reddle

3) Mineralogy: red chalk

4) Engineering: Indian ocher, indian ochre

5) Construction: abraum (краситель для придания более тёмного оттенка красному дереву), keel (пигмент), lime red, red ocher (пигмент)

6) Automobile industry: Indian ochre

7) Architecture: (индийская) Indian ochre, recycling chalk

8) Metallurgy: red ocher (глинистая разновидность гематита)

9) Makarov: red ocher (см.тж. hematite)

охра

1) General subject: sienna

2) Geology: yellow earth

3) Chemistry: ocher

4) Religion: ochre( An earthy red or yellow and often impure iron ore used as a pigment)

5) Automobile industry: ochre

6) Oil: ochre, ocher

7) Makarov: sienna (краска)

8) Electrochemistry: ochre (пигмент)

Raky, Anton

SUBJECT AREA: Mining and extraction technology

[br]

b. 5 January 1868 Seelenberg, Taunus, Germany

d. 22 August 1943 Berlin, Germany

[br]

German inventor of rapid percussion drilling, entrepreneur in the exploration business.

[br]

While apprenticed at the drilling company of E. Przibilla, Raky already called attention by his reflections towards developing drilling methods and improving tools. Working as a drilling engineer in Alsace, he was extraordinarily successful in applying an entire new hydraulic boring system in which the rod was directly connected to the chisel. This apparatus, driven by steam, allowed extremely rapid percussions with very low lift.

With some improvements, his boring rig drilled deep holes at high speed and at least doubled the efficiency of the methods hitherto used. His machine, which was also more reliable, was secured by a patent in 1895. With borrowed capital, he founded the Internationale Bohrgesellschaft in Strasbourg in the same year, and he began a career in the international exploration business that was unequalled as well as breathtaking. Until 1907 the total depth of the drillings carried out by the company was 1,000 km.

Raky's rapid drilling was unrivalled and predominant until improved rotary drilling took over. His commercial sense in exploiting the technical advantages of his invention by combining drilling with producing the devices in his own factory at Erkelenz, which later became the headquarters of the company, and in speculating on the concessions for the explored deposits made him by far superior to all of his competitors, who were provoked into contests which they generally lost. His flourishing company carried out drilling in many parts of the world; he became the initiator of the Romanian oil industry and his extraordinary activities in exploring potash and coal deposits in different parts of Germany, especially in the Ruhr district, provoked the government in 1905 into stopping granting claims to private companies. Two years later, he was forced to withdraw from his holding company because of his restless and eccentric character. He turned to Russia and, during the First World War, he was responsible for the reconstruction of the destroyed Romanian oilfields. Thereafter, partly financed by mining companies, he continued explorations in several European countries, and in Germany he was pioneering again with exploring oilfields, iron ore and lignite deposits which later grew in economic value. Similar to Glenck a generation before, he was a daring entrepreneur who took many risks and opened new avenues of exploration, and he was constantly having to cope with a weak financial position, selling concessions and shares, most of them to Preussag and Wintershall; however, this could not prevent his business from collapse in 1932. He finally gave up drilling in 1936 and died a poor man.

[br]

Principal Honours and Distinctions

Dr-Ing. (Hon.) Bergakademie Clausthal 1921.

Further Reading

G.P.R.Martin, 1967, "Hundert Jahre Anton Raky", Erdöl-Erdgas-Zeitschrift, 83:416–24 (a detailed description).

D.Hoffmann, 1959, 150 Jahre Tiefbohrungen in Deutschland, Vienna and Hamburg: 32– 4 (an evaluation of his technologial developments).

WK

fer

fer [fεʀ]

1. masculine noun

   a. ( = métal) iron

• de fer iron

• volonté de fer iron will

• croire qch dur comme fer (inf) to believe sth firmly

   b. [de cheval] shoe ; [de chaussure] steel tip ; [de flèche, lance] point

   c. (pour repasser) iron

• donner un coup de fer à qch to give sth an iron ; (plus soigneusement) to press sth

2. compounds

► fer à cheval horseshoe

• en fer à cheval [table, bâtiment] U-shaped ► fer forgé wrought iron

► fer à friser curling tongs pl

► fer de lance spearhead

► fer à lisser (hair) straighteners

► fer à repasser iron

► fer rouge branding iron

► fer à souder soldering iron

► fer à vapeur steam iron

* * *

fɛʀ
1.

nom masculin

1) ( métal) iron

2) fig

de fer — [discipline, volonté] iron (épith)

3) ( de chaussure) steel tip; ( pour marquer) branding iron; ( de relieur) blocking tool

4) ( épée) sword; ( lame) blade

croiser le fer avec — to cross swords with

5) ( train) rail transport

par fer — by rail

2.

fers (dated) nom masculin pluriel

1) Médecine forceps

2) ( de prisonnier) irons

être dans les fers — lit to be in irons; fig to be in chains

•

Phrasal Verbs:

- fer à cheval

- fer forgé

- fer à friser

- fer de lance

- fer à repasser

- fer à vapeur

- fer à souder

••

croire dur comme fer — to believe wholeheartedly

il faut battre le fer pendant or tant qu'il est chaud — Proverbe strike while the iron is hot

tomber les quatre fers en l'air — to fall flat on one's back

* * *

fɛʀ

1. nm

1) (= métal) iron

en fer; de fer — iron

un pont en fer — an iron bridge

une santé de fer — an iron constitution

2) (= outil) iron

au fer rouge — with a red-hot iron

2. fers nmpl

1)

mettre aux fers (= enchaîner) — to put in chains, to put in irons

2) MÉDECINE forceps

* * *

fer

A nm

1 Chimie iron; objet en fer iron object, object made of iron; mine/minerai de fer iron mine/ore;

2 ( métal quelconque) metal;

3 fig de fer [discipline, poigne, volonté] iron; diriger d'une main de fer to rule with a rod of iron; avoir une santé de fer to have an iron constitution;

4 ( objet) ( de chaussure) steel tip; ( pour marquer) branding iron; ( de relieur) blocking tool; marquer un animal au fer (rouge) to brand an animal;

5 ( arme) ( épée) sword; ( lame) blade; croiser le fer avec lit, fig to cross swords with;

6 ( train) rail transport; par fer by rail.

B fers† nmpl

1 Méd forceps;

2 ( de prisonnier) irons; mettre un prisonnier aux fers to clap a prisoner in irons; être dans les fers lit to be in irons; fig to be in chains.

Composés

fer (à cheval) horseshoe; mettre un fer à un cheval to shoe a horse; en fer à cheval horseshoe-shaped; fer forgé wrought iron; fer à friser curling iron; fer à gaufrer hair crimper; fer de lance lit, fig spearhead; le fer de lance de l'industrie française the spearhead of French industry; fer à repasser ( domestique) iron; ( pour carte de paiement) manual imprinter (for credit card transactions); donner un (petit) coup de fer à qch to run the iron over sth; fer (à repasser) à vapeur steam iron; fer à souder soldering iron; fer à tuyauter goffering iron.

Idiomes

s'imposer par le fer et le feu to conquer by fire and the sword; croire dur comme fer to believe wholeheartedly; il faut battre le fer pendant or tant qu'il est chaud Prov strike while the iron is hot; tomber les quatre fers en l'air to fall flat on one's back.

[fɛr] nom masculin

1. CHIMIE iron (substantif non comptable)

2. MÉTALLURGIE iron (substantif non comptable)

fer doux soft iron

fer forgé wrought iron

3. [dans les aliments] iron (substantif non comptable)

4. [barre] (iron) bar

5. [lame] blade

fer de lance (sens propre & figuré) spearhead

par le fer et par le feu by fire and sword

6. [pour repassage]

fer à repasser iron

fer à vapeur steam iron

fer électrique (electric) iron

passer un coup de fer sur un pantalon to give a pair of trousers a quick iron

ton pantalon a besoin d'un petit coup de fer your trousers could do with a quick iron

7. [instrument]

fer à dorer gilding iron

fer à friser curling tongs (UK) ou iron (US)

fer à gaufrer goffering iron

fer à souder soldering iron

fer rouge brand

8. [de chaussure] metal tip

9. [de golf] iron (substantif comptable)

10. RAIL

le fer rail, the railway system, the railways

11. (littéraire) [épée] blade

————————

fers nom masculin pluriel

[chaînes] irons, shackles

mettre quelqu'un aux fers to put somebody in irons

————————

de fer locution adjectivale

[moral, santé] cast-iron (modificateur)

[discipline, volonté] iron (modificateur)

fer à cheval nom masculin

horseshoe

en fer à cheval [escalier, table] horseshoe-shaped, horseshoe (modificateur)

Riley, James

SUBJECT AREA: Metallurgy

[br]

b. 1840 Halifax, England

d. 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 Distinctions

President, 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.

Bibliography

1876, "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 Reading

A.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

Rittinger, Peter von

SUBJECT AREA: Mining and extraction technology

[br]

b. 23 January 1811 Neutitschein, Moravia (now Now Jicin, Czech Republic)

d. 7 December 1872 Vienna, Austria

[br]

Austrian mining engineer, improver of the processing of minerals.

[br]

After studying law, philosophy and politics at the University of Olmutz (now Olomouc), in 1835 Rittinger became a fellow of the Mining Academy in Schemnitz (now Banská Štiavnica), Slovakia. In 1839, the year he finished at the academy, he published a book on perspective drawing. The following year, he became Inspector of Mills at the ore mines in Schemnitz, and in 1845 he was engaged in coal mining in Bohemia and Moravia. In 1849 he joined the mining administration at Joachimsthal (now Jáchymov), Bohemia. In these early years he contributed his first important innovations for the mining industry and thus fostered his career in the government's service. In 1850 he was called to Vienna to become a high-ranked officer in various ministries. He was responsible for the construction of buildings, pumping installations and all sorts of machinery in the mining industry; he reorganized the curricula of the mining schools, was responsible for the mint and became head of the department of mines, forests and salt-works in the Austrian empire.

During all his years of public service, Rittinger continued his concern with technological innovations. He improved the processing of ores by introducing in 1844 the rotary washer and the box classifier, and later his continuously shaking concussion table which, having been exhibited at the Vienna World Fair of 1873, was soon adopted in other countries. He constructed water-column pumps, invented a differential shaft pump with hydraulic linkage to replace the heavy iron rods and worked on centrifugal pumps. He was one of the first to be concerned with the transfer of heat, and he developed a system of using exhaust steam for heating in salt-works. He kept his eye on current developments abroad, using his function as official Austrian commissioner to the world exhibitions, on which he published frequently as well as on other matters related to technology. With his systematic handbook on mineral processing, first published in 1867, he emphasized his international reputation in this specialized field of mining.

[br]

Principal Honours and Distinctions

Knighted 1863. Order of the Iron Crown 1863. Honorary Citizen of Joachimsthal 1864. President, Austrian Chamber of Engineers and Architects 1863–5.

Bibliography

1849, Der Spitzkasten-Apparat statt Mehlrinnen und Sümpfen…bei der nassen Aufbereitung, Freiberg.

1854, Theoretisch-praktische Anleitung zur Rader-Verzahnung, Vienna.

1855, Theoretisch-praktische Abhandlung über ein für alle Gattungen von Flüssigkeiten anwendbares neues Abdampfverfahren, Vienna.

1861, Theorie und Bau der Rohrturbinen, Prague.

1867, Lehrbuch der Aufbereitungskunde, Berlin (with supplements, 1870–73).

Further Reading

H.Kunnert, 1972, "Peter Ritter von Rittinger. Lebensbild eines grossen Montanisten", Der Anschnitt 24:3–7 (a detailed description of his life, based on source material).

J.Steiner, 1972, "Der Beitrag von Peter Rittinger zur Entwicklung der Aufbereitungstechnik". Berg-und hüttenmännische Monatshefte 117: 471–6 (an evaluation of Rittinger's achievements for the processing of ores).

WK

Coster, John

SUBJECT AREA: Metallurgy, Mining and extraction technology

[br]

b. c. 1647 Gloucestershire, England

d. 13 October 1718 Bristol, England

[br]

English innovator in the mining, smelting and working of copper.

[br]

John Coster, son of an iron-forge manager in the Forest of Dean, by the age of 38 was at Bristol, where he was "chief agent and sharer therein" in the new lead-smelting methods using coal fuel. In 1685 the work, under Sir Clement Clerke, was abandoned because of patent rights claimed by Lord Grandison, who financed of earlier attempts. Clerke's business turned to the coal-fired smelting of copper under Coster, later acknowledged as responsible for the subsequent success through using an improved reverberatory furnace which separated coal fume from the ores being smelted. The new technique, applicable also to lead and tin smelting, revitalized copper production and provided a basis for new British industry in both copper and brass manufacture during the following century. Coster went on to manage a copper-smelting works, and by the 1690s was supplying Esher copper-and brass-works in Surrey from his Redbrook, Gloucestershire, works on the River Wye. In the next decade he extended his activities to Cornish copper mining, buying ore and organizing ore sales, and supplying the four major copper and brass companies which by then had become established. He also made copper goods in additional water-powered rolling and hammer mills acquired in the Bristol area. Coster was ably assisted by three sons; of these, John and Robert were mainly active in Cornwall. In 1714 the younger John, with his father, patented an "engine for drawing water out of deep mines". The eldest son, Thomas, was more involved at Redbrook, in South Wales and the Bristol area. A few years after the death of his father, Thomas became partner in the brass company of Bristol and sold them the Redbrook site. He became Member of Parliament for Bristol and, by then the only surviving son, planned a large new smelting works at White Rock, Swansea, South Wales, before his death in 1734. Partners outside the family continued the business under a new name.

[br]

Bibliography

1714, British patent 397, with John Coster Jr.

Further Reading

Rhys Jenkins, 1942, "Copper works at Redbrook and Bristol", Transactions of the Bristol and Gloucestershire Archaeological Society 63.

Joan Day, 1974–6, "The Costers: copper smelters and manufacturers", Transactions of the Newcomen Society 47:47–58.

JD

lavorare

"to work;

Fertigen;

manufaturar"

* * *

1. v/i work

2. v/t materia prima process

legno carve

terra work

* * *

lavorare v. intr.

1 to work; (con fatica) to labour, to toil: finita la scuola andrà a lavorare, when he finishes school he'll go (out) to work; lavorare molto, sodo, to work hard; (far) lavorare troppo, to overwork; lavorare meglio di qlcu., to outwork s.o.; lavorare a ore, to work by the hour; lavorare a tempo pieno, a tempo parziale, to work full-time, part-time; lavorare a orario ridotto, to work short time (o to be on short time); far lavorare qlcu. a orario ridotto, to put s.o. on short time; lavorare a turni, to work by (o in) relays, to work (in) shifts; lavorare in proprio, to work on one's own account (o to work for oneself); lavorare presso qlcu., to be in the employ of s.o.; lavorare da falegname, da muratore, to work as a carpenter, a bricklayer; lavorare nel cinema, to work in the cinema industry; lavorare nei trasporti, to work in the transport industry; lavorare d'ago, to needlework; lavorare d'intarsio, to inlay; lavorare a maglia, to knit; lavorare a, intorno a qlco., to work at (o on) sthg.; sto lavorando a un romanzo, I am working on a novel; dare da lavorare a qlcu., to provide work (o employment) for s.o. // ( Borsa) lavorare in parità, to transact at par // (miner.) lavorare in profondità, to work in depth // l'Italia che lavora, the working population of Italy // lavorare come un cane, come un negro, to work like a dog // lavorare di cervello, to do brain work (o intellectual work); (ingegnarsi) to use one's brain // lavorare d'astuzia, to be shrewd // lavorare di fantasia, to let one's imagination run free; (inventare) to imagine things // lavorare di gomiti, to elbow one's way (through) // lavorare di mano, (rubare) to steal // lavorare per la gloria, to work for nothing // lavorare sott'acqua, (fig.) to scheme, to be underhanded // far lavorare qlcu. fino all'esaurimento, to work s.o. to a standstill (o to death) // chi non lavora non mangia, (prov.) no work, no pay

2 (funzionare) to operate, to work; (di chiave) to turn: in quello stabilimento gli impianti lavorano giorno e notte, in that plant machines work (o operate) day and night; le fabbriche hanno ripreso a lavorare, the factories have resumed working; il suo fegato non lavora bene, his liver doesn't work very well; il veleno sta lavorando, the poison is working (o is having its effect)

3 (avere un giro di affari) to do* business: questo bar lavora poco, this coffee bar doesn't do much business; questo negozio lavora molto, this shop is doing good business

◆ v.tr. to work; (trattare) to process; (mecc.) (alle macchine) to machine (tool): lavorare il ferro, la creta, to work iron, clay; (metall.) lavorare a freddo, a caldo, to hot-work, to cold-work; lavorare a sbalzo, to emboss; lavorare la terra, to till (o to work) the land; (cuc.) lavorare la pasta, to work dough// lavorarsi qlcu., (fig.) to work on s.o. (o to get round s.o.); (boxe) to beat up; si è lavorato il capo e ha avuto l'aumento, he worked on the boss and got a rise; lavorarsi l'opinione pubblica, to work on public opinion.

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[lavo'rare]

1. vi (aus avere)

1) (persona) to work

lavoro dalle otto alle cinque — I work from eight to five

andare a lavorare — to go to work

vado a lavorare alle sette — I go to work at seven

va a lavorare! — go and get on with your work!

lavorare duro o sodo — to work hard

lavorare in proprio — to work for o.s., be self-employed

lavorare a maglia/ad ago — to knit/do needlework

lavorare a qc — to work on sth

lavorare di fantasia — (suggestionarsi) to imagine things, (fantasticare) to let one's imagination run free

2) (funzionare: macchinari) to work, run, operate, (negozi, uffici: far affari) to do well, do good business

quel bar non lavora molto — that bar isn't doing very well

far lavorare il cervello — to use one's brains

2. vt

(creta, ferro) to work, (legno) to carve, (Culin : pane, pasta) to work, knead, (burro) to beat, (Agr : terra) to work, cultivate

lavorarsi qn — (fig : convincere) to work on sb

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[lavo'rare] 1.

verbo transitivo (manipolare) to work [legno, metallo]; gastr. to knead [ pasta]; agr. to work, to cultivate [ terra]

2.

verbo intransitivo (aus. avere)

1) to work

lavorare molto o sodo to work hard; lavorare in fabbrica to work in a factory; lavorare nell'editoria to work in publishing; lavorare per qcn. to work for sb.; lavorare come insegnante to work as a teacher; lavorare in proprio to work for oneself, to freelance; lavorare in nero = to work without declaring one's earnings, under the table; lavorare a cottimo to job; lavorare su un testo, a un progetto to work on a text, project; far lavorare un allievo to make a pupil work; far lavorare il cervello fig. to apply one's mind; lavori troppo di immaginazione — you have an overactive imagination

2) (fare affari) [commerciante, negozio, albergo] to do* business

lavorare molto — to do good business

lavorare in perdita — to run at loss

3) sart.

lavorare a maglia — to knit

lavorare all'uncinetto — to crochet

4) sport

lavorare qcn. ai fianchi — [ boxeur] to work away at sb.'s ribs

3.

verbo pronominale lavorarsi

-rsi qcn. — to work on sb

••

lavorare come un negro — to work like a slave

lavorare come un mulo — to work like a horse

lavorare di gomiti — to elbow one's way

lavorare sott'acqua — to plot, to scheme

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lavorare

/lavo'rare/ [1]

I verbo transitivo

  (manipolare) to work [legno, metallo]; gastr. to knead [ pasta]; agr. to work, to cultivate [ terra]

II verbo intransitivo

 (aus. avere)

 1 to work; lavorare molto o sodo to work hard; lavorare in fabbrica to work in a factory; lavorare nell'editoria to work in publishing; lavorare per qcn. to work for sb.; lavorare come insegnante to work as a teacher; lavorare in proprio to work for oneself, to freelance; lavorare in nero = to work without declaring one's earnings, under the table; lavorare a cottimo to job; lavorare su un testo, a un progetto to work on a text, project; far lavorare un allievo to make a pupil work; far lavorare il cervello fig. to apply one's mind; lavori troppo di immaginazione you have an overactive imagination

 2 (fare affari) [commerciante, negozio, albergo] to do* business; lavorare molto to do good business; lavorare in perdita to run at loss

 3 sart. lavorare a maglia to knit; lavorare all'uncinetto to crochet

 4 sport lavorare qcn. ai fianchi [ boxeur] to work away at sb.'s ribs

III lavorarsi verbo pronominale

 -rsi qcn. to work on sb.

IDIOMS

lavorare come un negro to work like a slave; lavorare come un mulo to work like a horse; lavorare di gomiti to elbow one's way; lavorare sott'acqua to plot, to scheme.