Mill, James

Mill, James

перс.

эк. Милль, Джеймс (1773-1836; английский экономист, представитель классической политической экономии, отец Дж. С. Милля; наибольшую известность приобрел как популяризатор теории Д. Рикардо)

See:

Mill, John Stuart, Mill, John Stuart

Mill

m.

1 Mill, John Stuart Mill.

2 Mill, James Mill.

mill

s.

1 molinillo (grinder); molino (for flour)

2 fábrica o (textile factory)planta de tejidos (Am.)

3 Mill, John Stuart Mill.

4 Mill, James Mill.

5 fábrica de tejidos.

vt.

1 moler (grain); fresar (metal)

2 bullir, andar por ahí, dar vueltas, arremolinarse.

3 procesar. (pt & pp milled)

Mill, John Stuart

перс.

фил., пол., эк. Милль, Джон Стюарт (1806-1873; английский философ-позитивист, экономист и общественный деятель, сторонник политического либерализма, поздний представитель классической политической экономии; один из родоначальников неоклассической теории международной торговли; основной труд — "Основы политической экономии" (Principles of Political Economy), 1848 г.)

See:

classical political economy, neoclassical theory of international trade, ethology б) Mill, James

James Mill

m.

James Mill, Mill.

Whatman, James

SUBJECT AREA: Paper and printing

[br]

baptized 4 October 1702 Loose, near Maidstone, Kent, England

d. 29 June 1759 Loose, near Maidstone, Kent, England

[br]

English papermaker, inventor of wove paper.

[br]

The Whatman family had been established in Kent in the fifteenth century. At the time of his marriage in 1740, Whatman was described as a tanner. His wife was the widow of Richard Harris, papermaker, and, by the marriage settlement, he with his wife became joint tenants of Turkey Mill, near Maidstone. The mill had been used for fulling since the Middle Ages, but towards the end of the seventeenth century it had been converted to papermaking. Remarkably quickly, Whatman became one of the leading papermakers in England, doubtless helped by the shortage of imported paper that resulted from the Spanish Succession War of the 1740s. By the time of his death, his mill had the largest output in England, with a reputation for good-quality writing paper.

According to his son's account much later, Whatman introduced wove paper, made in a wove wire gauze mould, in 1756. It gave a smoother paper with a more even surface, and was probably made at the suggestion of the celebrated printer and type founder John Baskerville. Whatman printed a book in 1757 on paper with an even texture but with laid lines still discernible, indicating that at first the wire gauze was placed in a conventional wire mould. In a book printed by Baskerville two years later, these lines are no longer visible, so a wire gauze mould was in use by then.

After Whatman's death, Turkey Mill was managed by his widow for three years, until his son James (1741–98) was old enough to take charge. Under the management of the son, the mill maintained the scale and quality of its output, and in 1769 it was described as the largest paper mill in England where the best writing paper was made.

[br]

Further Reading

T.Balston, 1957, James Whatman, Father and Son, London: Methuen.

LRD

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

Hargreaves, James

SUBJECT AREA: Textiles

[br]

b. c.1720–1 Oswaldtwistle, near Blackburn, England

d. April 1778 Nottingham, England

[br]

English inventor of the first successful machine to spin more than a couple of yarns of cotton or wool at once.

[br]

James Hargreaves was first a carpenter and then a hand-loom weaver at Stanhill, Blackburn, probably making Blackburn Checks or Greys from linen warps and cotton weft. An invention ascribed to him doubled production in the preparatory carding process before spinning. Two or three cards were nailed to the same stock and the upper one was suspended from the ceiling by a cord and counterweight. Around 1762 Robert Peel (1750–1830) sought his assistance in constructing a carding engine with cylinders that may have originated with Daniel Bourn, but this was not successful. In 1764, inspired by seeing a spinning wheel that continued to revolve after it had been knocked over accidentally, Hargreaves invented his spinning jenny. The first jennies had horizontal wheels and could spin eight threads at once. To spin on this machine required a great deal of skill. A length of roving was passed through the clamp or clove. The left hand was used to close this and draw the roving away from the spindles which were rotated by the spinner turning the horizontal wheel with the right hand. The spindles twisted the fibres as they were being drawn out. At the end of the draw, the spindles continued to be rotated until sufficient twist had been put into the fibres to make the finished yarn. This was backed off from the tips of the spindles by reversing them and then, with the spindles turning in the spinning direction once more, the yarn was wound on by the right hand rotating the spindles, the left hand pushing the clove back towards them and one foot operating a pedal which guided the yarn onto the spindles by a faller wire. A piecer was needed to rejoin the yarns when they broke. At first Hargreaves's jenny was worked only by his family, but then he sold two or three of them, possibly to Peel. In 1768, local opposition and a riot in which his house was gutted forced him to flee to Nottingham. He entered into partnership there with Thomas James and established a cotton mill. In 1770 he followed Arkwright's example and sought to patent his machine and brought an action for infringement against some Lancashire manufacturers, who offered £3,000 in settlement. Hargreaves held out for £4,000, but he was unable to enforce his patent because he had sold jennies before leaving Lancashire. Arkwright's "water twist" was more suitable for the Nottingham hosiery industry trade than jenny yarn and in 1777 Hargreaves replaced his own machines with Arkwright's. When he died the following year, he is said to have left property valued at £7,000 and his widow received £400 for her share in the business. Once the jenny had been made public, it was quickly improved by other inventors and the number of spindles per machine increased. In 1784, there were reputed to be 20,000 jennies of 80 spindles each at work. The jenny greatly eased the shortage of cotton weft for weavers.

[br]

Bibliography

1770, British patent no. 962 (spinning jenny).

Further Reading

C.Aspin and S.D.Chapman, 1964, James Hargreaves and the Spinning Jenny, Helmshore Local History Society (the fullest account of Hargreaves's life and inventions).

For descriptions of his invention, see W.English, 1969, The Textile Industry, London; R.L. Hills, 1970, Power in the Industrial Revolution, Manchester; and W.A.Hunter, 1951–3, "James Hargreaves and the invention of the spinning jenny", Transactions of

the Newcomen Society 28.

A.P.Wadsworth and J. de L.Mann, 1931, The Cotton Trade and Industrial Lancashire, Manchester (a good background to the whole of this period).

RLH

Pickard, James

SUBJECT AREA: Steam and internal combustion engines

[br]

fl. c. 1780 Birmingham, England

[br]

English patentee of the application of the crank to steam engines.

[br]

James Pickard, the Birmingham button maker, also owned a flour mill at Snow Hill, in 1780, where Matthew Wasborough installed one of his rotative engines with ratchet gear and a flywheel. In August 1780, Pickard obtained a patent (no. 1263) for an application to make a rotative engine with a crank as well as gearwheels, one of which was weighted to help return the piston in the atmospheric cylinder during the dead stroke and overcome the dead centres of the crank. Wasborough's flywheel made the counterweight unnecessary, and engines were built with this and Pickard's crank. Several Birmingham business people seem to have been involved in the patent, and William Chapman of Newcastle upon Tyne was assigned the sole rights of erecting engines on the Wasborough-Pickard system in the counties of Northumberland, Durham and York. Wasborough was building engines in the south until his death the following year. The patentees tried to bargain with Boulton \& Watt to exchange the use of the crank for that of the separate condenser, but Boulton \& Watt would not agree, probably because James Watt claimed that one of his workers had stolen the idea of the crank and divulged it to Pickard. To avoid infringing Pickard's patent, Watt patented his sun-and-planet motion for his rotative engines.

[br]

Bibliography

August 1780, British patent no. 1,263 (rotative engine with crank and gearwheels).

Further Reading

J.Farey, 1827, A Treatise on the Steam Engine, Historical, Practical and Descriptive, reprinted 1971, Newton Abbot: David \& Charles (contains an account of Pickard's crank). R.L.Hills, 1989, Power from Steam. A History of the Stationary Steam Engine, Cambridge University Press (provides an account of Pickard's crank).

R.A.Buchanan, 1978–9, "Steam and the engineering community in the eighteenth century", Transactions of the Newcomen Society 50 ("Thomas Newcomen. A commemorative symposium") (provides details about the development of his engine).

RLH

Stuart, James

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering

[br]

b. 2 January 1843 Balgonie, Fife, Scotland

d. 12 October 1913 Norwich, Norfolk, England

[br]

Scottish engineer and educator.

[br]

James Stuart established the teaching of engineering as a university discipline at Cambridge. He was born at Balgonie in Fife, where his father managed a linen mill. He attended the University of St Andrews and then studied mathematics at Cambridge University. In 1867 he took up a post as Assistant Tutor at Trinity College, Cambridge, where his skills as a teacher were quickly recognized. The University was at that time adapting itself to the new systems of instruction recommended by the Royal Commission on university reform in the 1850s, and Stuart took an active part in the organization of a new structure of inter-collegiate lecture courses. He made an even more significant contribution to the establishment of extramural courses from which the Cambridge University extension lecture programme developed. This began in 1867, when Stuart took adult classes in Manchester and Crewe. The latter, in particular, brought him into close contact with those involved in practical mechanics and stimulated his interest in the applied sciences. In 1875 he was elected to the newly created Chair of Mechanism and Engineering in Cambridge, and he set out energetically to recruit students and to build up a flourishing unit with its own workshop and foundry, training a new generation of engineers in the applied sciences.

In November 1884 Stuart was elected to Parliament and embarked on an active but somewhat undistinguished career in politics as a radical Liberal, becoming amongst other things a keen supporter of the women's suffrage movement. This did not endear him to his academic colleagues, and the Engineering School suffered from neglect by Stuart until he resigned the Chair in 1890. By the time he left, however, the University was ready to recognize Engineering as a Tripos subject and to accept properly equipped teaching laboratories, so that his successor J.A. Ewing was able to benefit from Stuart's pioneering work. Stuart continued his political activities and was appointed a Privy Councillor in 1909. He married Elizabeth Colman after resigning the Chair, and on the death of his father-in-law in 1898 he moved to Norwich to take on the direction of the family mustard firm, J. \& J.Colman Ltd.

[br]

Further Reading

Hilken, 1967, Engineering at Cambridge, Ch. 3, pp. 58–106.

AB

Lovelock, James Ephraim

SUBJECT AREA: Domestic appliances and interiors, Electricity, Electronics and information technology

[br]

b. 26 July 1919 Brixton, London, England

[br]

English biologist and philosopher, inventor of the microwave oven and electron capture detector.

[br]

Lovelock was brought up in Brixton in modest circumstances. At the age of 4 he was given a toy electrical set, which first turned his attention towards the study of science. From the Strand School, Brixton, he went on to the universities of Manchester and London, and after graduating in science, in 1941 he joined the National Institute for Medical Research, Mill Hill, as a staff scientist, remaining there for twenty years. During the early 1950s, he and his colleagues were engaged in research into freezing live animals and bringing them back to life by heating: Lovelock was struck by the intense pain this process caused the animals, and he sought a more humane method. He tried diathermy or internal heating through the effect of a continuous wave magnetron borrowed from the Navy. He found that the animals were brought back to life painlessly, and impressed with his success he tried baking a potato for his lunch in the apparatus and found that it cooked amazingly quickly compared with the one hour normally needed in an ordinary oven. Lovelock had invented the microwave oven, but its commercial possibilities were not at first realized.

In the late 1950s he invented the electron capture detector, which proved to be more sensitive than any other analytical equipment in detecting and measuring toxic substances. The apparatus therefore had obvious uses in testing the quality of the environment and so offered a tremendous boost to the "green" movement. In 1961 he was invited to joint the US National Aeronautics and Space Administration (NASA) to employ the apparatus in an attempt to detect life in space.

In the early 1970s Lovelock relinquished his biological work in order to devote his attention to philosophical matters, specifically to develop his theory of the Universe, now widely celebrated as the "Gaia theory". In this controversial theory, Lovelock regards our planet and all its living beings, including humans, as a single living organism.

[br]

Principal Honours and Distinctions

CBE 1990. FRS 1974. Many academic awards and honorary degrees. Visiting Professor, University of Reading 1967–90.

Bibliography

1979, Gaia.

1983, The Great Extinction.

1988, The Ages of Gaia.

1991, Gaia: The Practical Science of Planetary Medicine.

LRD

Bedson, George

SUBJECT AREA: Metallurgy

[br]

b. 3 November 1820 Sutton Coldfield, Warwickshire, England

d. 12 December 1884 Manchester (?), England

[br]

English metallurgist, inventor of the continuous rolling mill.

[br]

He acquired a considerable knowledge of wire-making in his father's works before he took a position in 1839 at the works of James Edleston at Warrington. From there, in 1851, he went to Manchester as Manager of Richard Johnson \& Sons' wire mill, where he remained for the rest of his life. It was there that he initiated several important improvements in the manufacture of wire. These included a system of circulating puddling furnace water bottoms and sides, and a galvanizing process. His most important innovation, however, was the continuous mill for producing iron rod for wiredrawing. Previously the red-hot iron billets had to be handled repeatedly through a stand or set of rolls to reduce the billet to the required shape, with time and heat being lost at each handling. In Bedson's continuous mill, the billet entered the first of a succession of stands placed as closely to each other as possible and emerged from the final one as rod suitable for wiredrawing, without any intermediate handling. A second novel feature was that alternate rolls were arranged vertically to save turning the piece manually through a right angle. That improved the quality as well as the speed of production. Bedson's first continuous mill was erected in Manchester in 1862 and had sixteen stands in tandem. A mill on this principle had been patented the previous year by Charles While of Pontypridd, South Wales, but it was Bedson who made it work and brought it into use commercially. A difficult problem to overcome was that as the piece being rolled lengthened, its speed increased, so that each pair of rolls had to increase correspondingly. The only source of power was a steam engine working a single drive shaft, but Bedson achieved the greater speeds by using successively larger gear-wheels at each stand.

Bedson's first mill was highly successful, and a second one was erected at the Manchester works; however, its application was limited to the production of small bars, rods and sections. Nevertheless, Bedson's mill established an important principle of rolling-mill design that was to have wider applications in later years.

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Further Reading

Obituary, 1884, Journal of the Iron and Steel Institute 27:539–40. W.K.V.Gale, 1969, Iron and Steel, London: Longmans, pp. 81–2.

LRD

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Bourn, Daniel

SUBJECT AREA: Textiles

[br]

fl. 1744 Lancashire, England

[br]

English inventor of a machine with cylinders for carding cotton.

[br]

Daniel Bourn may well have been a native of Lancashire. He set up a fourth Paul-Wyatt cotton-spinning mill at Leominster, Herefordshire, possibly in 1744, although the earliest mention of it is in 1748. His only known partner in this mill was Henry Morris, a yarn dealer who in 1743 had bought a grant of spindles from Paul at the low rate of 30 shillings or 40 shillings per spindle when the current price was £3 or £4. When Bourn patented his carding engine in 1748, he asked Wyatt for a grant of spindles, to which Wyatt agreed because £100 was offered immedi-ately. The mill, which was probably the only one outside the control of Paul and his backers, was destroyed by fire in 1754 and was not rebuilt, although Bourn and his partners had considerable hopes for it. Bourn was said to have lost over £1,600 in the venture.

Daniel Bourn described himself as a wool and cotton dealer of Leominster in his patent of 1748 for his carding engine. The significance of this invention is the use of rotating cylinders covered with wire clothing. The patent drawing shows four cylinders, one following the other to tease out the wool, but Bourn was unable to discover a satisfactory method of removing the fibres from the last cylinder. It is possible that Robert Peel in Lancashire obtained one of these engines through Morris, and that James Hargreaves tried to improve it; if so, then some of the early carding engines in the cotton industry were derived from Bourn's.

[br]

Bibliography

1748, British patent no. 628 (carding engine).

Further Reading

A.P.Wadsworth and J.de Lacy Mann, 1931, The Cotton Trade and Industrial Lancashire 1600–1780, Manchester (the most significant reference to Bourn).

R.L.Hills, 1970, Power in the Industrial Revolution, Manchester (provides an examination of the carding patent).

R.S.Fitton, 1989, The Arkwrights, Spinners of Fortune, Manchester (mentions Bourn in his survey of the textile scene before Arkwright).

R.Jenkins, 1936–7, "Industries of Herefordshire in Bygone Times", Transactions of the Newcomen Society 17 (includes a reference to Bourn's mill).

C.Singer (ed.), 1957, A History of Technology, Vol. III, Oxford: Clarendon Press; ibid., 1958, Vol, IV (brief mentions of Bourn's work).

RLH

Ewart, Peter

SUBJECT AREA: Textiles

[br]

b. 14 May 1767 Traquair, near Peebles, Scotland

d. September 1842 London, England

[br]

Scottish pioneer in the mechanization of the textile industry.

[br]

Peter Ewart, the youngest of six sons, was born at Traquair manse, where his father was a clergyman in the Church of Scotland. He was educated at the Free School, Dumfries, and in 1782 spent a year at Edinburgh University. He followed this with an apprenticeship under John Rennie at Musselburgh before moving south in 1785 to help Rennie erect the Albion corn mill in London. This brought him into contact with Boulton \& Watt, and in 1788 he went to Birmingham to erect a waterwheel and other machinery in the Soho Manufactory. In 1789 he was sent to Manchester to install a steam engine for Peter Drinkwater and thus his long connection with the city began. In 1790 Ewart took up residence in Manchester as Boulton \& Watt's representative. Amongst other engines, he installed one for Samuel Oldknow at Stockport. In 1792 he became a partner with Oldknow in his cotton-spinning business, but because of financial difficulties he moved back to Birmingham in 1795 to help erect the machines in the new Soho Foundry. He was soon back in Manchester in partnership with Samuel Greg at Quarry Bank Mill, Styal, where he was responsible for developing the water power, installing a steam engine, and being concerned with the spinning machinery and, later, gas lighting at Greg's other mills.

In 1798, Ewart devised an automatic expansion-gear for steam engines, but steam pressures at the time were too low for such a device to be effective. His grasp of the theory of steam power is shown by his paper to the Manchester Literary and Philosophical Society in 1808, On the Measure of Moving Force. In 1813 he patented a power loom to be worked by the pressure of steam or compressed air. In 1824 Charles Babbage consulted him about automatic looms. His interest in textiles continued until at least 1833, when he obtained a patent for a self-acting spinning mule, which was, however, outclassed by the more successful one invented by Richard Roberts. Ewart gave much help and advice to others. The development of the machine tools at Boulton \& Watt's Soho Foundry has been mentioned already. He also helped James Watt with his machine for copying sculptures. While he continued to run his own textile mill, Ewart was also in partnership with Charles Macintosh, the pioneer of rubber-coated cloth. He was involved with William Fairbairn concerning steam engines for the boats that Fairbairn was building in Manchester, and it was through Ewart that Eaton Hodgkinson was introduced to Fairbairn and so made the tests and calculations for the tubes for the Britannia Railway Bridge across the Menai Straits. Ewart was involved with the launching of the Liverpool \& Manchester Railway as he was a director of the Manchester Chamber of Commerce at the time.

In 1835 he uprooted himself from Manchester and became the first Chief Engineer for the Royal Navy, assuming responsibility for the steamboats, which by 1837 numbered 227 in service. He set up repair facilities and planned workshops for overhauling engines at Woolwich Dockyard, the first establishment of its type. It was here that he was killed in an accident when a chain broke while he was supervising the lifting of a large boiler. Engineering was Ewart's life, and it is possible to give only a brief account of his varied interests and connections here.

[br]

Further Reading

Obituary, 1843, "Institution of Civil Engineers", Annual General Meeting, January. Obituary, 1843, Manchester Literary and Philosophical Society Memoirs (NS) 7. R.L.Hills, 1987–8, "Peter Ewart, 1767–1843", Manchester Literary and Philosophical

Society Memoirs 127.

M.B.Rose, 1986, The Gregs of Quarry Bank Mill The Rise and Decline of a Family Firm, 1750–1914, Cambridge (covers E wart's involvement with Samuel Greg).

R.L.Hills, 1970, Power in the Industrial Revolution, Manchester; R.L.Hills, 1989, Power

from Steam, Cambridge (both look at Ewart's involvement with textiles and steam engines).

RLH

Murray, Matthew

SUBJECT AREA: Land transport, Mechanical, pneumatic and hydraulic engineering, Railways and locomotives, Steam and internal combustion engines

[br]

b. 1765 near Newcastle upon Tyne, England

d. 20 February 1826 Holbeck, Leeds, England

[br]

English mechanical engineer and steam engine, locomotive and machine-tool pioneer.

[br]

Matthew Murray was apprenticed at the age of 14 to a blacksmith who probably also did millwrighting work. He then worked as a journeyman mechanic at Stockton-on-Tees, where he had experience with machinery for a flax mill at Darlington. Trade in the Stockton area became slack in 1788 and Murray sought work in Leeds, where he was employed by John Marshall, who owned a flax mill at Adel, located about 5 miles (8 km) from Leeds. He soon became Marshall's chief mechanic, and when in 1790 a new mill was built in the Holbeck district of Leeds by Marshall and his partner Benyon, Murray was responsible for the installation of the machinery. At about this time he took out two patents relating to improvements in textile machinery.

In 1795 he left Marshall's employment and, in partnership with David Wood (1761– 1820), established a general engineering and millwrighting business at Mill Green, Holbeck. In the following year the firm moved to a larger site at Water Lane, Holbeck, and additional capital was provided by two new partners, James Fenton (1754–1834) and William Lister (1796–1811). Lister was a sleeping partner and the firm was known as Fenton, Murray \& Wood and was organized so that Fenton kept the accounts, Wood was the administrator and took charge of the workshops, while Murray provided the technical expertise. The factory was extended in 1802 by the construction of a fitting shop of circular form, after which the establishment became known as the "Round Foundry".

In addition to textile machinery, the firm soon began the manufacture of machine tools and steam-engines. In this field it became a serious rival to Boulton \& Watt, who privately acknowledged Murray's superior craftsmanship, particularly in foundry work, and resorted to some industrial espionage to discover details of his techniques. Murray obtained patents for improvements in steam engines in 1799, 1801 and 1802. These included automatic regulation of draught, a mechanical stoker and his short-D slide valve. The patent of 1801 was successfully opposed by Boulton \& Watt. An important contribution of Murray to the development of the steam engine was the use of a bedplate so that the engine became a compact, self-contained unit instead of separate components built into an en-gine-house.

Murray was one of the first, if not the very first, to build machine tools for sale. However, this was not the case with the planing machine, which he is said to have invented to produce flat surfaces for his slide valves. Rather than being patented, this machine was kept secret, although it was apparently in use before 1814.

In 1812 Murray was engaged by John Blenkinsop (1783–1831) to build locomotives for his rack railway from Middleton Colliery to Leeds (about 3 1/2 miles or 5.6 km). Murray was responsible for their design and they were fitted with two double-acting cylinders and cranks at right angles, an important step in the development of the steam locomotive. About six of these locomotives were built for the Middleton and other colliery railways and some were in use for over twenty years. Murray also supplied engines for many early steamboats. In addition, he built some hydraulic machinery and in 1814 patented a hydraulic press for baling cloth.

Murray's son-in-law, Richard Jackson, later became a partner in the firm, which was then styled Fenton, Murray \& Jackson. The firm went out of business in 1843.

[br]

Principal Honours and Distinctions

Society of Arts Gold Medal 1809 (for machine for hackling flax).

Further Reading

L.T.C.Rolt, 1962, Great Engineers, London (contains a good short biography).

E.Kilburn Scott (ed.), 1928, Matthew Murray, Pioneer Engineer, Leeds (a collection of essays and source material).

C.F.Dendy Marshall, 1953, A History of Railway Locomotives Down to the End of the

Year 1831, London.

L.T.C.Rolt, 1965, Tools for the Job, London; repub. 1986 (provides information on Murray's machine-tool work).

Some of Murray's correspondence with Simon Goodrich of the Admiralty has been published in Transactions of the Newcomen Society 3 (1922–3); 6(1925–6); 18(1937– 8); and 32 (1959–60).

RTS

brillante

adj.

1 shining (reluciente) (luz, astro).

2 brilliant.

el pianista estuvo brillante the pianist was outstanding

m.

diamond.

* * *

brillante

► adjetivo

1 (extraordinario) brilliant

■ un alumno brillante a brilliant student

2 (pelo, metal, zapatos) shiny; (ojos) sparkling; (luz, color) bright; (pintura) gloss

► nombre masculino

1 (diamante) diamond

* * *

1. noun m.

diamond

2. adj.

bright, brilliant, shiny

* * *

1. ADJ

1) (=reluciente) [luz, sol, color] [gen] bright; [muy fuerte] brilliant; [superficie pulida] shiny; [pelo] glossy, shiny; [joyas, lentejuelas] sparkling, glittering

un estampado amarillo brillante — a bright o brilliant yellow pattern

los focos eran demasiado brillantes — the floodlights were too bright

un vestido de satén brillante — a shiny satin dress

¡qué brillante ha quedado el suelo! — the floor is really shiny now!

frota los zapatos hasta que estén bien brillantes — polish the shoes until they are nice and shiny

tenía los ojos brillantes por la emoción — her eyes sparkled with excitement

2) (=excelente) brilliant

al final de su brillante carrera deportiva — at the end of her brilliant sporting career

su actuación fue absolutamente brillante — her performance was absolutely outstanding o brilliant

su brillante conversación — her sparkling conversation

2.

SM diamond, brilliant

un anillo de brillantes — a diamond ring

* * *

I

adjetivo

a) <luz/estrella/color> bright; <zapatos/metal/pelo> shiny; < pintura> gloss (before n); < papel> shiny, glossy

el fregadero está brillante de limpio — the sink is sparkling clean

una tela brillante — material with a sheen

b) <escritor/porvenir> brilliant

su abogado tuvo una actuación brillante — his lawyer performed brilliantly

II

masculino

a) ( diamante) diamond

un anillo de brillantes — a diamond ring

b) brillantes masculino plural (Arg) ( polvo brillante) glitter

* * *

= brilliant, glistening, glossy [glossier -comp., glossiest -sup.], dashing, shimmering, gleaming, sparkling, shiny [shinier -comp., shiniest -sup.], bright [brighter -comp., brightest -sup.], glittering, twinkling, shining, flashing, bravura, blazing, sparkly.

Ex. This conference has been blessed with the presence of the brilliant mind of Seymour Lubetzky.

Ex. Peter was trying to convince himself that it wasn't his fault as he navigated the glistening slippery streets.

Ex. The master has a glossy side coated with kaolin and an uncoated reverse side.

Ex. Some unfortunate children grow up as readers of James Bond, of dashing thrillers and the blood-and-guts of crude war stories.

Ex. Astounded and frightened by those shimmering tears, Leforte repeated her questions: 'Bernice... Please... Is anything wrong? Can I help?'.

Ex. The reader is like her: he sits watching the diverse pageant of human thought and human feeling passing across the gleaming mirror of literature.

Ex. She looked at them it with sparkling eyes, as though the problem was now solved.

Ex. Art paper (the shiny paper used for printing fine-screen half-tones from the 1880s) had a coating of china clay applied in a special machine to one or both sides of a web of body paper.

Ex. The openness of the now accessible stacks is emphasised by use of glass and bright colours.

Ex. The article 'The glittering prizes' likens book prizes to a contemporary form of patronage.

Ex. The menu has a variety of embellishments such as twinkling stars or a message board.

Ex. When the market for shining victorias and handy runabouts was climaxed by the building of 'horseless carriages,' and tax benefits and lower wages lured mill owners south, thousands emigrated westward.

Ex. Errors are indicated by a flashing light and the repositioning of the cursor at the item in error.

Ex. She emphasizes Colette's extraordinary character: her bravura, pragmatism, insouciance, resistance to conventions and, above all, appetite.

Ex. Marie-Nicole Lemieux in the title role provides a blazing star performance.

Ex. Basically, it's a piece of embroidered fabric to which is added fringe, tassels, and sparkly things.

----

* con ojos brillantes = bright-eyed.

* ejecución brillante = bravura performance.

* * *

I

adjetivo

a) <luz/estrella/color> bright; <zapatos/metal/pelo> shiny; < pintura> gloss (before n); < papel> shiny, glossy

el fregadero está brillante de limpio — the sink is sparkling clean

una tela brillante — material with a sheen

b) <escritor/porvenir> brilliant

su abogado tuvo una actuación brillante — his lawyer performed brilliantly

II

masculino

a) ( diamante) diamond

un anillo de brillantes — a diamond ring

b) brillantes masculino plural (Arg) ( polvo brillante) glitter

* * *

= brilliant, glistening, glossy [glossier -comp., glossiest -sup.], dashing, shimmering, gleaming, sparkling, shiny [shinier -comp., shiniest -sup.], bright [brighter -comp., brightest -sup.], glittering, twinkling, shining, flashing, bravura, blazing, sparkly.

Ex: This conference has been blessed with the presence of the brilliant mind of Seymour Lubetzky.

Ex: Peter was trying to convince himself that it wasn't his fault as he navigated the glistening slippery streets.

Ex: The master has a glossy side coated with kaolin and an uncoated reverse side.

Ex: Some unfortunate children grow up as readers of James Bond, of dashing thrillers and the blood-and-guts of crude war stories.

Ex: Astounded and frightened by those shimmering tears, Leforte repeated her questions: 'Bernice... Please... Is anything wrong? Can I help?'.

Ex: The reader is like her: he sits watching the diverse pageant of human thought and human feeling passing across the gleaming mirror of literature.

Ex: She looked at them it with sparkling eyes, as though the problem was now solved.

Ex: Art paper (the shiny paper used for printing fine-screen half-tones from the 1880s) had a coating of china clay applied in a special machine to one or both sides of a web of body paper.

Ex: The openness of the now accessible stacks is emphasised by use of glass and bright colours.

Ex: The article 'The glittering prizes' likens book prizes to a contemporary form of patronage.

Ex: The menu has a variety of embellishments such as twinkling stars or a message board.

Ex: When the market for shining victorias and handy runabouts was climaxed by the building of 'horseless carriages,' and tax benefits and lower wages lured mill owners south, thousands emigrated westward.

Ex: Errors are indicated by a flashing light and the repositioning of the cursor at the item in error.

Ex: She emphasizes Colette's extraordinary character: her bravura, pragmatism, insouciance, resistance to conventions and, above all, appetite.

Ex: Marie-Nicole Lemieux in the title role provides a blazing star performance.

Ex: Basically, it's a piece of embroidered fabric to which is added fringe, tassels, and sparkly things.

* con ojos brillantes = bright-eyed.

* ejecución brillante = bravura performance.

* * *

brillante¹

adjective

1 ‹luz/estrella/color› bright; ‹zapatos/metal/pelo› shiny; ‹pintura› gloss ( before n); ‹papel› shiny, glossy

tenía la platería brillante she kept the silverware gleaming

son de un color azul brillante they're bright blue

tenía los ojos brillantes de fiebre her eyes were bright with fever

sus brillantes ojos azules his sparkling o bright blue eyes

el fregadero está brillante de limpio the sink is sparkling clean

tiene el suelo brillante the floor's shining

una tela brillante material with a sheen

2 ‹escritor/discurso/porvenir› brilliant

brillante²

masculine

1 (diamante) diamond

un anillo de brillantes a diamond ring

2 brillantes mpl ( Arg) (polvo brillante) glitter

* * *

 

brillante adjetivo

a) ‹luz/estrella/color› bright;

‹zapatos/metal/pelo› shiny;
‹ pintura› gloss ( before n);
‹ papel› glossy;
‹ tela› with a sheen

b) ‹escritor/porvenir› brilliant;

‹ mente› great;

◊ su actuación fue brillante she performed brilliantly

■ sustantivo masculino ( diamante) diamond;

◊ un anillo de brillantes a diamond ring

brillante
I adjetivo
1 (un color, una persona, un objeto) brilliant: su conferencia fue absolutamente brillante, his talk was absolutely brillant
2 (un suelo, una superficie) gleaming
II sustantivo masculino diamond

' brillante' also found in these entries:
Spanish:
consumada
- consumado
- distinguirse
- impracticable
- lustrosa
- lustroso
- nublar
- viva
- vivo
- destellar
- destello
- engarzar
- lumbrera
- radiante
- trayectoria
English:
blind
- bright
- brilliant
- gleaming
- gloss
- glossy
- glowing
- polished
- rock
- scintillating
- shining
- shiny
- sparkling
- strong
- vibrant
- brighten
- diamond
- flash
- sleek

* * *

brillante

♦ adj

1. [reluciente] [luz, astro] shining;

[metal, zapatos, pelo] shiny; [ojos, sonrisa, diamante] sparkling

2. [magnífico] brilliant;

el pianista estuvo brillante the pianist was outstanding;

el joven escritor tiene un futuro brillante the young writer has a brilliant future ahead of him

♦ nm

diamond, Espec brilliant

* * *

brillante

I adj

1 ( luminoso) bright

2 fig

brilliant

II m diamond

* * *

brillante adj

: brilliant, bright

♦ brillantemente adv

brillante nm

diamante: diamond

* * *

brillante¹ adj

1. (luz, color) bright

esta estrella es la más brillante this is the brightest star

2. (coche, pelo, superficie) shiny [comp. shinier; superl. shiniest]

una moneda nueva y brillante a shiny new coin

3. (persona, actuación) brilliant

un brillante estudiante de matemáticas a brilliant mathematics student

brillante² n diamond

un anillo de brillantes a diamond ring

Bell, Henry

SUBJECT AREA: Ports and shipping

[br]

b. 1767 Torphichen Mill, near Linlithgow, Scotland

d. 1830 Helensburgh, Scotland

[br]

Scottish projector of the first steamboat service in Europe.

[br]

The son of Patrick Bell, a millwright, Henry had two sisters and an elder brother and was educated at the village school. When he was 9 years old Henry was sent to lodge in Falkirk with an uncle and aunt of his mother's so that he could attend the school there. At the age of 12 he left school and agreed to become a mason with a relative. In 1783, after only three years, he was bound apprentice to his Uncle Henry, a millwright at Jay Mill. He stayed there for a further three years and then, in 1786, joined the firm of Shaw \& Hart, shipbuilders of Borrowstoneness. These were to be the builders of William Symington's hull for the Charlotte Dundas. He also spent twelve months with Mr James Inglis, an engineer of Bellshill, Lanarkshire, and then went to London to gain experience, working for the famous John Rennie for some eighteen months. By 1790 he was back in Glasgow, and a year later he took a partner, James Paterson, into his new business of builder and contractor, based in the Trongate. He later referred to himself as "architect", and his partnership with Paterson lasted seven years. He is said to have invented a discharging machine for calico printing, as well as a steam dredger for clearing the River Clyde.

The Baths Hotel was opened in Helensburgh in 1808, with the hotel-keeper, who was also the first provost of the town, being none other than Henry Bell. It has been suggested that Bell was also the builder of the hotel and this seems very likely. Bell installed a steam engine for pumping sea water out of the Clyde and into the baths, and at first ran a coach service to bring customers from Glasgow three days a week. The driver was his brother Tom. The coach was replaced by the Comet steamboat in 1812.

While Henry was busy with his provost's duties and making arrangements for the building of his steamboat, his wife Margaret, née Young, whom he married in March 1794, occupied herself with the management of the Baths Hotel. Bell did not himself manufacture, but supervised the work of experts: John and Charles Wood of Port Glasgow, builders of the 43ft 6 in. (13.25 m)-long hull of the Comet; David Napier of Howard Street Foundry for the boiler and other castings; and John Robertson of Dempster Street, who had previously supplied a small engine for pumping water to the baths at the hotel in Helensburgh, for the 3 hp engine. The first trials of the finished ship were held on 24 July 1812, when she was launched from Wood's yard. A regular service was advertised in the Glasgow Chronicle on 5 August and was the first in Europe, preceded only by that of Robert Fulton in the USA. The Comet continued to run until 1820, when it was wrecked.

Bell received little reward for his promotion of steam navigation, merely small pensions from the Clyde trustees and others. He was buried at the parish church of Rhu.

[br]

Further Reading

Edward Morris, 1844, Life of Henry Bell.

Henry Bell, 1813, Applying Steam Engines to Vessels.

IMcN

Fox, Samson

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering, Metallurgy, Steam and internal combustion engines

[br]

b. 11 July 1838 Bowling, near Bradford, Yorkshire, England

d. 24 October 1903 Walsall, Staffordshire, England

[br]

English engineer who invented the corrugated boiler furnace.

[br]

He was the son of a cloth mill worker in Leeds and at the age of 10 he joined his father at the mill. Showing a mechanical inclination, he was apprenticed to a firm of machine-tool makers, Smith, Beacock and Tannett. There he rose to become Foreman and Traveller, and designed and patented tools for cutting bevelled gears. With his brother and one Refitt, he set up the Silver Cross engineering works for making special machine tools. In 1874 he founded the Leeds Forge Company, acting as Managing Director until 1896 and then as Chairman until shortly before his death.

It was in 1877 that he patented his most important invention, the corrugated furnace for steam-boilers. These furnaces could withstand much higher pressures than the conventional form, and higher working pressures in marine boilers enabled triple-expansion engines to be installed, greatly improving the performance of steamships, and the outcome was the great ocean-going liners of the twentieth century. The first vessel to be equipped with the corrugated furnace was the Pretoria of 1878. At first the furnaces were made by hammering iron plates using swage blocks under a steam hammer. A plant for rolling corrugated plates was set up at Essen in Germany, and Fox installed a similar mill at his works in Leeds in 1882.

In 1886 Fox installed a Siemens steelmaking plant and he was notable in the movement for replacing wrought iron with steel. He took out several patents for making pressed-steel underframes for railway wagons. The business prospered and Fox opened a works near Chicago in the USA, where in addition to wagon underframes he manufactured the first American pressed-steel carriages. He later added a works at Pittsburgh.

Fox was the first in England to use water gas for his metallurgical operations and for lighting, with a saving in cost as it was cheaper than coal gas. He was also a pioneer in the acetylene industry, producing in 1894 the first calcium carbide, from which the gas is made.

Fox took an active part in public life in and around Leeds, being thrice elected Mayor of Harrogate. As a music lover, he was a benefactor of musicians, contributing no less than £45,000 towards the cost of building the Royal College of Music in London, opened in 1894. In 1897 he sued for libel the author Jerome K.Jerome and the publishers of the Today magazine for accusing him of misusing his great generosity to the College to give a misleading impression of his commercial methods and prosperity. He won the case but was not awarded costs.

[br]

Principal Honours and Distinctions

Royal Society of Arts James Watt Silver Medal and Howard Gold Medal. Légion d'honneur 1889.

Bibliography

1877, British Patent nos. 1097 and 2530 (the corrugated furnace or "flue", as it was often called).

Further Reading

Obituary, 1903, Proceedings of the Institution of Mechanical Engineers: 919–21.

Obituary, 1903, Proceedings of the Institution of Civil Engineers (the fullest of the many obituary notices).

G.A.Newby, 1993, "Behind the fire doors: Fox's corrugated furnace 1877 and the high pressure steamship", Transactions of the Newcomen Society 64.

LRD

Owen, Robert

SUBJECT AREA: Textiles

[br]

b. 14 May 1771 Newtown, Montgomeryshire, Wales

d. 17 November 1858 Newtown, Montgomeryshire, Wales

[br]

Welsh cotton spinner and social reformer.

[br]

Robert Owen's father was also called Robert and was a saddler, ironmonger and postmaster of Newtown in Montgomeryshire. Robert, the younger, injured his digestion as a child by drinking some scalding hot "flummery", which affected him for the rest of his life. He developed a passion for reading and through this visited London when he was 10 years old. He started work as a pedlar for someone in Stamford and then went to a haberdasher's shop on old London Bridge in London. Although he found the work there too hard, he stayed in the same type of employment when he moved to Manchester.

In Manchester Owen soon set up a partnership for making bonnet frames, employing forty workers, but he sold the business and bought a spinning machine. This led him in 1790 into another partnership, with James M'Connel and John Kennedy in a spinning mill, but he moved once again to become Manager of Peter Drink-water's mill. These were all involved in fine spinning, and Drinkwater employed 500 people in one of the best mills in the city. In spite of his youth, Owen claims in his autobiography (1857) that he mastered the job within six weeks and soon improved the spinning. This mill was one of the first to use Sea Island cotton from the West Indies. To have managed such an enterprise so well Owen must have had both managerial and technical ability. Through his spinning connections Owen visited Glasgow, where he met both David Dale and his daughter Anne Caroline, whom he married in 1799. It was this connection which brought him to Dale's New Lanark mills, which he persuaded Dale to sell to a Manchester consortium for £60,000. Owen took over the management of the mills on 1 January 1800. Although he had tried to carry out social reforms in the manner of working at Manchester, it was at New Lanark that Owen acquired fame for the way in which he improved both working and living conditions for the 1,500-strong workforce. He started by seeing that adequate food and groceries were available in that remote site and then built both the school and the New Institution for the Formation of Character, which opened in January 1816. To the pauper children from the Glasgow and Edinburgh slums he gave a good education, while he tried to help the rest of the workforce through activities at the Institution. The "silent monitors" hanging on the textile machines, showing the performance of their operatives, are famous, and many came to see his social experiments. Owen was soon to buy out his original partners for £84,000.

Among his social reforms were his efforts to limit child labour in mills, resulting in the Factory Act of 1819. He attempted to establish an ideal community in the USA, to which he sailed in 1824. He was to return to his village of "Harmony" twice more, but broke his connection in 1828. The following year he finally withdrew from New Lanark, where some of his social reforms had been abandoned.

[br]

Bibliography

1857, The Life of Robert Owen, Written by Himself, London.

Further Reading

G.D.H.Cole, 1965, Life of Robert Owen (biography).

J.Butt (ed.), 1971, Robert Owen, Prince of Cotton Spinners, Newton Abbot; S.Pollard and J.Salt (eds), 1971, Robert Owen, Prophet of the Poor. Essays in Honour of the

Two-Hundredth Anniversary of His Birth, London (both describe Owen's work at New Lanark).

RLH