Joseph Whitworth
Sir Joseph Whitworth | |
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Sir Joseph Whitworth | |
Born |
Stockport, Cheshire, England, United Kingdom | 21 December 1803
Died |
22 January 1887 83) Monte Carlo, Monaco | (aged
Engineering career | |
Institution memberships |
Royal Society Institution of Mechanical Engineers |
Significant advance | Whitworth standardised screw threads |
Significant awards |
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Sir Joseph Whitworth, 1st Baronet (21 December 1803 – 22 January 1887) was an English engineer, entrepreneur, inventor and philanthropist.[2] In 1841, he devised the British Standard Whitworth system, which created an accepted standard for screw threads. Whitworth also created the Whitworth rifle, often called the 'sharpshooter' because of its accuracy and considered one of the earliest examples of a sniper rifle.[3][4][5][6][7][8]
At his death in 1887, he bequeathed much of his fortune for the people of Manchester, with the Whitworth Art Gallery and Christie Hospital partly funded by Whitworth's money. Whitworth Street and Whitworth Hall in Manchester are named in his honour. Whitworth was created a baronet on 7 October 1869.[9][10][11]
Biography
Early life
Whitworth was born in Stockport, Cheshire, the son of Charles Whitworth, a teacher and Congregational minister, and at an early age developed an interest in machinery. He was educated at Idle, near Bradford, West Riding of Yorkshire; his aptitude for mechanics became apparent when he began work for his uncle.[12]
Career
After leaving school Whitworth became an indentured apprentice to his uncle, Joseph Hulse, a cotton spinner at Amber Mill, Oakerthorpe in Derbyshire. The plan was that Whitworth would become a partner in the business. From the outset he was fascinated by the mill's machinery and soon he mastered the techniques of the cotton spinning industry but even at this age he noticed the poor standards of accuracy and was critical of the milling machinery. This early exposure to the mechanics of the industry forged in him the ambition to make machinery with much greater precision. His apprenticeship at Amber Mill lasted for a four-year term after which he worked for another four years as a mechanic in a factory in Manchester. He then moved to London where he found employment working for Henry Maudslay, the inventor of the screw-cutting lathe, alongside such people as James Nasmyth (inventor of the steam hammer) and Richard Roberts.
Whitworth developed great skill as a mechanic while working for Maudslay, developing various precision machine tools and also introducing a box casting scheme for the iron frames of machine tools that simultaneously increased their rigidity and reduced their weight.
Whitworth also worked for Holtzapffel & Co (makers of ornamental lathes) and Joseph Clement. While at Clement's workshop he helped with the manufacture of Charles Babbage's calculating machine, the Difference engine. He returned to Openshaw, Manchester, in 1833 to start his own business manufacturing lathes and other machine tools, which became renowned for their high standard of workmanship. Whitworth is attributed with the introduction of the thou in 1844.[13] In 1853, along with his lifelong friend, artist and art educator George Wallis (1811–1891), he was appointed a British commissioner for the New York International Exhibition. They toured around industrial sites of several American states, and the result of their journey was a report 'The Industry of the United States in Machinery, Manufactures and Useful and Applied Arts, compiled from the Official Reports of Messrs Whitworth and Wallis, London, 1854.'
In 1850, architect Edward Walters was commissioned to build 'The Firs' for Whitworth. This was a grand mansion at Fallowfield, Manchester, which still stands today, functioning as Chancellors Hotel & Conference Centre.
Whitworth received many awards for the excellence of his designs and was financially very successful. In 1850, then a President of the Institution of Mechanical Engineers, he built a house called 'The Firs' in Fallowfield, south Manchester. In 1854 he bought Stancliffe Hall in Darley Dale, Derbyshire and moved there with his second wife Louisa in 1872. He supplied four six-ton blocks of stone from Darley Dale quarry, for the lions of St. George's Hall in Liverpool. He was conferred with Honorary Membership of the Institution of Engineers and Shipbuilders in Scotland in 1859. He was elected a Fellow of the Royal Society (FRS) in 1857.[1]
A strong believer in the value of technical education, Whitworth backed the new Mechanics' Institute in Manchester (later UMIST) and helped found the Manchester School of Design. In 1868, he founded the Whitworth Scholarship for the advancement of mechanical engineering. He donated a sum of £128,000 to the government in 1868 (approximately £6.5 million in 2010) to bring "science and industry" closer together and to fund scholarships.[14]
Death
In January 1887 at the age of 83, Sir Joseph Whitworth died in Monte Carlo where he had travelled in the hope of improving his health. He was buried at St Helen's Church, Darley Dale, Derbyshire. A detailed obituary was published in the American magazine The Manufacturer and Builder (Volume 19, Issue 6, June 1887). He directed his trustees to spend his fortune on philanthropic projects, which they still do to this day. Part of his bequest was used to establish the Whitworth Art Gallery, now part of the University of Manchester.
Memorials
Richard Copley Christie was a friend of Whitworth's. By Whitworth's will, Christie was appointed one of three legatees, each of whom was left more than half a million pounds for their own use, ‘they being each of them aware of the objects’ to which these funds would have been put by Whitworth. They chose to spend more than a fifth of the money on support for Owens College, together with the purchase of land now occupied by the Manchester Royal Infirmary. In 1897, Christie personally assigned more than £50,000 for the erection of the Whitworth Hall, to complete the front quadrangle of Owens College. He was president of the Whitworth Institute from 1890 to 1895 and was much interested in the medical and other charities of Manchester, especially the Cancer Pavilion and Home, of whose committee he was chairman from 1890 to 1893, and which later became the Christie Hospital.[15]
The university's Whitworth Art Gallery (formerly the Whitworth Institute) and adjacent Whitworth Park were established as part of his bequest to Manchester after his death. Nearby Whitworth Park Halls of Residence also bears his name, as does Whitworth Street, one of the main streets in Manchester city centre, running from London Road to the south end of Deansgate. Near 'The Firs' a cycleway behind Owens Park is called Whitworth Lane. In Darley Dale is another Whitworth Park. In recognition of his achievements and contributions to education in Manchester, the Whitworth Building on the University of Manchester's Main Campus is named in his honour.
Work
Accuracy and standardisation
Whitworth popularised a method of producing accurate flat surfaces (see Surface plate) during the 1830s, using engineer's blue and scraping techniques on three trial surfaces. Up until his introduction of the scraping technique, the same three plate method was employed using polishing techniques, giving less accurate results. This led to an explosion of development of precision instruments using these flat surface generation techniques as a basis for further construction of precise shapes.
His next innovation, in 1840, was a measuring technique called "end measurements" that used a precision flat plane and measuring screw, both of his own invention. The system, with a precision of one millionth of an inch, was demonstrated at the Great Exhibition of 1851.
In 1841 Whitworth devised a standard for screw threads with a fixed thread angle of 55° and having a standard pitch for a given diameter. This soon became the first nationally standardised system; its adoption by the railway companies, who until then had all used different screw threads, leading to its widespread acceptance. It later became a British Standard, "British Standard Whitworth", abbreviated to BSW and governed by BS 84:1956.
Whitworth rifle
Whitworth was commissioned by the War Department of the British government to design a replacement for the calibre .577-inch Pattern 1853 Enfield, whose shortcomings had been revealed during the recent Crimean War. The Whitworth rifle had a smaller bore of 0.451 inch (11.4554 mm) which was hexagonal, fired an elongated hexagonal bullet and had a faster rate of twist rifling [one turn in twenty inches] than the Enfield, and its performance during tests in 1859 was superior to the Enfield's in every way. The test was reported in The Times on 23 April as a great success. However, the new bore design was found to be prone to fouling and it was four times more expensive to manufacture than the Enfield, so it was rejected by the British government, only to be adopted by the French Army. An unspecified number of Whitworth rifles found their way to the Confederate states in the American Civil War, where they were called "Whitworth Sharpshooters".
The Enfield rifle was converted to Snider-Enfield Rifle by Jacob Snider, a Dutch-American wine merchant from Philadelphia. By converting existing Enfield rifles this way, the cost of a "new" breech-loading Snider-Enfield rifle was only 12 shillings (60p).
Queen Victoria opened the first meeting of the National Rifle Association at Wimbledon, in 1860 by firing a Whitworth rifle from a fixed mechanical rest. The rifle scored a bull's eye at a range of 400 yards (366 m).
Breech-loading artillery
Whitworth also designed a large rifled breech loading gun with a 2.75 inch (69.85 mm) bore, a 12-pound 11 ounce (5.75 kg) projectile and a range of about six miles (10 km). The spirally-grooved projectile was patented in 1855. This was rejected by the British Army, who preferred the guns from Armstrong, but was used in the American Civil War.
While trying to increase the bursting strength of his gun barrels, Whitworth patented a process called "fluid-compressed steel" for casting steel under pressure, and built a new steel works near Manchester. Some of his castings were shown at the Great Exhibition in Paris ca. 1883.
References
Wikimedia Commons has media related to Joseph Whitworth. |
- 1 2 "Fellowship of the Royal Society 1660-2015". London: Royal Society. Archived from the original on 2015-07-15.
- ↑ "Whitworth, Joseph". Dictionary of National Biography. London: Smith, Elder & Co. 1885–1900.
- ↑ Atkinson, Norman (1996). Sir Joseph Whitworth: "the World's Best Mechanician". Gloucester: Sutton Publishing Limited. ISBN 0-7509-1211-1.
- ↑ Bradshaw, L. D. (1985). Origins of Street Names in the City of Manchester. Radcliffe: Neil Richardson. ISBN 0-907511-87-2.
- ↑ Kilburn, Terence (1987) Joseph Whitworth: Toolmaker, two editions, 1987 and 2002
- ↑ Kilburn, Terence ( ) Darley's Lady Bountiful: Lady Louisa Whitworth
- ↑ Lea, F. C. (1946). Sir Joseph Whitworth: a Pioneer of Mechanical Engineering. London: Longmans, Green.
- ↑ Roe, Joseph Wickham (1916), English and American Tool Builders, New Haven, Connecticut: Yale University Press, LCCN 16011753. Reprinted by McGraw-Hill, New York and London, 1926 (LCCN 27-24075); and by Lindsay Publications, Inc., Bradley, Illinois, (ISBN 978-0-917914-73-7).
- ↑ The London Gazette: no. 23544. p. 5446. 8 October 1869.
- ↑ Whitworth, Joseph (1873) Miscellaneous papers on mechanical subjects: Guns and Steel. London: Longmans, Green, Reader & Dyer
- ↑ Joseph Whitworth in The Illustrated London Amanack 1869
- ↑ Bradshaw (1985); pp. 57–58
- ↑ Edkins, Jo. "Small units". Imperial Measures of Length. Jo Edkins. Retrieved 2009-09-23.
- ↑ "Joseph Whitworth trust". imeche.org. Retrieved 2012-10-30.
- ↑ A. W. Ward, ‘Christie, Richard Copley (1830–1901)’, rev. M. C. Curthoys, Oxford Dictionary of National Biography, Oxford University Press, 2004 accessed 20 Dec 2007, paid registration required
Professional and academic associations | ||
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Preceded by William Fairbairn |
President of the Institution of Mechanical Engineers 1856–1857 |
Succeeded by John Penn |
Preceded by Robert Napier |
President of the Institution of Mechanical Engineers 1865–1866 |
Succeeded by John Penn |
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