William Armstrong, 1st Baron Armstrong
William George Armstrong, 1st Baron Armstrong CB FRS (26 November 1810 – 27 December 1900) was an English engineer and industrialist who founded the Armstrong Whitworth manufacturing concern on Tyneside. He was also an eminent scientist, inventor and philanthropist. In collaboration with the architect Richard Norman Shaw, he built Cragside in Northumberland, the first house in the world to be lit by hydroelectricity. He is regarded as the inventor of modern artillery.
William Armstrong, 1st Baron Armstrong | |
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Born | 26 November 1810 Newcastle upon Tyne, England |
Died | 27 December 1900 90) Rothbury, Northumberland, England | (aged
Nationality | British |
Occupation | Engineer |
Spouse(s) | Margaret Ramshaw |
Parent(s) | William and Anne Armstrong |
Engineering career | |
Discipline | Civil, Mechanical, Electrical, Structural |
Institutions | British Association for the Advancement of Science (President), Royal Society (Fellow), Institution of Civil Engineers (President), Institution of Mechanical Engineers (President), North of England Mining and Mechanical Engineers (President), Literary and Philosophical Society of Newcastle upon Tyne (President) |
Significant design | hydraulic crane, hydroelectric machine, accumulator, Armstrong Gun |
Awards | Telford Medal (1850), Albert Medal (1878), Bessemer Medal (1891) |
Armstrong was knighted in 1859 after giving his gun patents to the government. In 1887, in Queen Victoria's golden jubilee year, he was raised to the peerage as Baron Armstrong of Cragside.
Early life
Armstrong was born in Newcastle upon Tyne at 9 Pleasant Row, Shieldfield, about a mile from the city centre. Although the house in which he was born no longer exists, an inscribed granite tablet marks the site where it stood.[1] At that time the area, next to the Pandon Dene, was rural. His father, also called William, was a corn merchant on the Newcastle quayside, who rose through the ranks of Newcastle society to become mayor of the town in 1850. An elder sister, Anne, born in 1802,[2] was named after his mother, the daughter of Addison Potter.[3]
Armstrong was educated at the Royal Grammar School, Newcastle upon Tyne, until he was sixteen, when he was sent to Bishop Auckland Grammar School. While there, he often visited the nearby engineering works of William Ramshaw. During his visits he met his future wife, Ramshaw’s daughter Margaret, six years his senior.[2]
Armstrong’s father was set on him following a career in the law,[4] and so he was articled to Armorer Donkin, a solicitor friend of his father’s. He spent five years in London studying law and returned to Newcastle in 1833. In 1835 he became a partner in Donkin’s business and the firm became Donkin, Stable and Armstrong. Armstrong married Margaret Ramshaw in 1835, and they built a house in Jesmond Dene, on the eastern edge of Newcastle.[2] Armstrong worked for eleven years as a solicitor, but during his spare time he showed great interest in engineering developing the "Armstrong Hydroelectric Machine" between 1840 and 1842.[2][5]
Change of career
Armstrong was a very keen angler, and while fishing on the River Dee at Dentdale in the Pennines, he saw a waterwheel in action, supplying power to a marble quarry. It struck Armstrong that much of the available power was being wasted. When he returned to Newcastle, he designed a rotary engine powered by water, and this was built in the High Bridge works of his friend Henry Watson. Unfortunately, little interest was shown in the engine. Armstrong subsequently developed a piston engine instead of a rotary one and decided that it might be suitable for driving a hydraulic crane. In 1846 his work as an amateur scientist was recognized when he was elected a Fellow of the Royal Society.[6]
In 1845 a scheme was set in motion to provide piped water from distant reservoirs to the households of Newcastle. Armstrong was involved in this scheme and he proposed to Newcastle Corporation that the excess water pressure in the lower part of town could be used to power a quayside crane specially adapted by himself. He claimed that his hydraulic crane could unload ships faster and more cheaply than conventional cranes. The Corporation agreed to his suggestion, and the experiment proved so successful that three more hydraulic cranes were installed on the Quayside.[6]
The success of his hydraulic crane led Armstrong to consider setting up a business to manufacture cranes and other hydraulic equipment. He therefore resigned from his legal practice. Donkin, his legal colleague, supported him in his career move, providing financial backing for the new venture. In 1847 the firm of W. G. Armstrong & Company bought 5.5 acres (22,000 m2) of land alongside the river at Elswick, near Newcastle, and began to build a factory there. The new company received orders for hydraulic cranes from Edinburgh and Northern Railways and from Liverpool Docks,[7] as well as for hydraulic machinery for dock gates in Grimsby. The company soon began to expand. In 1850 the company produced 45 cranes and two years later, 75. It averaged 100 cranes per year for the rest of the century. In 1850 over 300 men were employed at the works, but by 1863 this had risen to 3,800. The company soon branched out into bridge building, one of the first orders being for the Inverness Bridge, completed in 1855.[6]
Hydraulic accumulator
Armstrong was responsible for developing the hydraulic accumulator. Where water pressure was not available on site for the use of hydraulic cranes, Armstrong often built high water towers to provide a supply of water at pressure - for instance, the Grimsby Dock Tower. However, when supplying cranes for use at New Holland on the Humber Estuary, he was unable to do this because the foundations consisted of sand. After much careful thought he produced the weighted accumulator, a cast-iron cylinder fitted with a plunger supporting a very heavy weight. The plunger would slowly be raised, drawing in water, until the downward force of the weight was sufficient to force the water below it into pipes at great pressure. The accumulator was a very significant, if unspectacular, invention, which found many applications in the following years.[2]
Armaments
In 1854, during the Crimean War, Armstrong read about the difficulties the British Army experienced in manoeuvring its heavy field guns. He decided to design a lighter, more mobile field gun, with greater range and accuracy. He built a breech-loading gun[4] with a strong, rifled barrel made from wrought iron wrapped around a steel inner lining, designed to fire a shell rather than a ball. In 1855 he had a five-pounder ready for inspection by a government committee. The gun proved successful in trials, but the committee thought a higher calibre gun was needed, so Armstrong built an 18-pounder on the same design.
After trials, this gun was declared to be superior to all its rivals. Armstrong surrendered the patent for the gun to the British government, rather than profit from its design. As a result he was created a Knight Bachelor and in 1859 was presented to Queen Victoria.[3] Armstrong became employed as Engineer of Rifled Ordnance to the War Department.[3] In order to avoid a conflict of interests if his own company were to manufacture armaments, Armstrong created a separate company, called Elswick Ordnance Company, in which he had no financial involvement. The new company agreed to manufacture armaments for the British government and no other. Under his new position, Armstrong worked to bring the old Woolwich Arsenal up to date so that it could build guns designed at Elswick.[6]
However, just when it looked as if the new gun was about to become a great success, a great deal of opposition to the gun arose, both inside the army and from rival arms manufacturers, particularly Joseph Whitworth of Manchester. Stories were publicised that the new gun was too difficult to use, that it was too expensive, that it was dangerous to use, that it frequently needed repair and so on. All of this smacked of a concerted campaign against Armstrong. Armstrong was able to refute all of these claims in front of various government committees, but he found the constant criticism very wearying and depressing. In 1862 the government decided to stop ordering the new gun and return to muzzle loaders. Also, because of a drop in demand, future orders for guns would be supplied from Woolwich, leaving Elswick without new business. Compensation was eventually agreed with the government for the loss of business to the company, which went on legimately to sell its products to foreign powers. Speculation that guns were sold to both sides in the American Civil War[6] was unfounded.[8][9][10]
Warships
In 1864 the two companies, W. G. Armstrong & Company and Elswick Ordnance Company merged to form Sir W. G. Armstrong & Company. Armstrong had resigned from his employment with the War Office, so there was no longer a conflict of interest. The company turned its attention to naval guns. In 1867 Armstrong reached an agreement with Charles Mitchell, a shipbuilder in Low Walker, whereby Mitchells would build warships and Elswick would provide the guns. The first ship, in 1868 was HMS Staunch, a gunboat.[6]
In 1876, because the 18th-century bridge at Newcastle restricted access by ships to the Elswick works, Armstrong’s company paid for a new Swing Bridge to be built, so that warships could have their guns fitted at Elswick. In 1882 Armstrong’s company merged with Mitchell's to form Sir William Armstrong, Mitchell and Co. Ltd. and in 1884 a shipyard opened at Elswick to specialise in warship production. The first vessels produced were the torpedo cruisers Panther and Leopard for the Austro-Hungarian Navy. The first battleship produced at Elswick was HMS Victoria, launched in 1887.[11] The ship was originally to be named Renown, but the name was changed in honour of the Queen's Golden Jubilee. Armstrong drove the first and last rivets. The ship was ill-fated, as she was involved in a collision with HMS Camperdown in 1893 and sank with the loss of 358 men, including Vice-Admiral Sir George Tryon. An important customer of the Elswick yard was Japan, which took several cruisers, some of which defeated the Russian fleet at the Battle of Tsushima in 1905. It was claimed that every Japanese gun used in the battle was provided by Elswick. Elswick was the only factory in the world that could build a battleship and arm it completely.[6]
The Elswick works continued to prosper, and by 1870 it stretched for three-quarters of a mile along the riverside. The population of Elswick, which was 3,539 in 1851, had increased by 1871 to 27,800. In 1894, Elswick built and installed the steam-driven pumping engines, hydraulic accumulators and hydraulic pumping engines to operate London’s Tower Bridge. In 1897 the company merged with the company of Armstrong’s old rival, Joseph Whitworth, and became Sir W. G. Armstrong, Whitworth & Co Ltd. Whitworth was by this time dead.[6]
Armstrong gathered many excellent engineers at Elswick. Notable among them were Andrew Noble and George Wightwick Rendel, whose design of gun-mountings and hydraulic control of gun-turrets were adopted worldwide. Rendel introduced the cruiser as a naval vessel. There was great rivalry and dislike between Noble and Rendel, which became open after Armstrong’s death.[6]
Cragside
From 1863 onwards, although Armstrong remained the head of his company, he became less involved in its day-to-day running. He appointed several very able men to senior positions and they continued his work. When he married, he acquired a house called Jesmond Dean (sic), which is now demolished, and not to be confused with the nearby Jesmond Dene House. Armstrong's house was to the west of Jesmond Dene, Newcastle, and thus not far from his birthplace, and he began to landscape and improve land that he bought within the Dene. In 1860 he paid local architect John Dobson to design a Banqueting Hall overlooking the Dene, which still survives, though it is now roofless. His house close to Newcastle was convenient for his practice as a solicitor and his work as an industrialist, but when he had more spare time he longed for a house in the country.[6]
He had often visited Rothbury as a child, when he was afflicted by a severe cough, and he had fond memories of the area. In 1863 he bought some land in a steep-sided, narrow valley where the Debdon Burn flows towards the River Coquet near Rothbury. He had the land cleared and supervised the building of a house perched on a ledge of rock, overlooking the burn. He also supervised a programme of planting trees and mosses so as to cover the rocky hillside with vegetation.
His new house was called Cragside, and over the years Armstrong added to the Cragside estate. Eventually the estate was 1,729 acres (7.00 km2) and had seven million trees planted, together with five artificial lakes and 31 miles (50 km) of carriage drives. The lakes were used to generate hydro-electricity, and the house was the first in the world to be lit by hydro-electricity, using incandescent lamps provided by the inventor Joseph Swan.[2]
As Armstrong spent less and less time at the Elswick works, he spent more and more time at Cragside, and it became his main home. In 1869 he commissioned the celebrated architect Richard Norman Shaw to enlarge and improve the house, and this was done over a period of 15 years. In 1883 Armstrong gave Jesmond Dene, together with its banqueting hall to the city of Newcastle. He retained his house next to the Dene. Armstrong entertained several eminent guests at Cragside, including the Shah of Persia, the King of Siam, the prime minister of China and the Prince and Princess of Wales.[6]
Later life
In 1873 he served as High Sheriff of Northumberland.[13] He was President of the North of England Institute of Mining and Mechanical Engineers from 1872–75. He was elected as the president of the Institution of Civil Engineers in December 1881 and served in that capacity for the next year.[14] He was conferred with Honorary Membership of the Institution of Engineers and Shipbuilders in Scotland in 1884.[15] In 1886, he was persuaded to stand as a Unionist Liberal candidate for Newcastle, but was unsuccessful, coming third in the election. That same year he was presented with the Freedom of the City of Newcastle. In 1887 he was raised to the peerage as Baron Armstrong, of Cragside in the County of Northumberland. His last great project, begun in 1894, was the purchase and restoration of the huge Bamburgh Castle[16] on the Northumberland coast, which remains in the hands of the Armstrong family. His wife, Margaret, died in September 1893, at their house in Jesmond. Armstrong died at Cragside on 27 December 1900, aged ninety. He was buried in Rothbury churchyard, alongside his wife. The couple had no children, and Armstrong’s heir was his great-nephew William Watson-Armstrong. He was succeeded as chairman of the company by his one-time protégé, Andrew Noble.[6]
Such was Armstrong's fame as a gun-maker that he is thought to be a possible model for George Bernard Shaw's arms magnate in Major Barbara.[4] The title character in Iain Pears' historical-mystery novel Stone's Fall also has similarities to Armstrong.
His attitude to armaments
There is no evidence that Armstrong agonised over his decision to go into armament production. He once said: "If I thought that war would be fomented, or the interests of humanity suffer, by what I have done, I would greatly regret it. I have no such apprehension." He also said: "It is our province, as engineers to make the forces of matter obedient to the will of man; those who use the means we supply must be responsible for their legitimate application."[6]
Views on renewable energy
Armstrong advocated the use of renewable energy. Stating that coal "was used wastefully and extravagantly in all its applications", he predicted in 1863 that Britain would cease to produce coal within two centuries.[4] As well as advocating the use of hydroelectricity, he also supported solar power, stating that the amount of solar energy received by an area of 1 acre (4,000 m2) in the tropics would "exert the amazing power of 4,000 horses acting for nearly nine hours every day".[17]
Honours
- William Armstrong was knighted as a Knight Bachelor (Kt) in 1859.
- He was made a Companion of the Order of the Bath in the Civil Division.
- On 6 July 1887 he was raised to the Peerage as a Hereditary peer, allowing him to sit in the House of Lords. He took the title Baron Armstrong, of Cragside in the County of Northumberland.
- In 1846 he was made a Fellow of the Royal Society (FRS).
- He was awarded the Freedom of the City of Newcastle in 1886.
- Telford Medal from the Institution of Civil Engineers in 1850.
- Albert Medal from the Royal Society of Arts in 1878.
- Bessemer Gold Medal from the Iron and Steel Institute in 1891.
- Honorary Degrees
Location | Date | School | Degree |
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1862 | University of Cambridge | Doctor of Laws (LL.D) | |
1870 | University of Oxford | Doctor of Civil Law (DCL) | |
1882 | University of Durham | Doctor of Civil Law (DCL) | |
Arms
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The benefactor
Armstrong donated the long wooded gorge of Jesmond Dene to the people of the city of Newcastle upon Tyne in 1883, as well as Armstrong Bridge and Armstrong Park nearby.[20] He was involved in the foundation in 1871 of the College of Physical Science [21] - a forerunner of the University of Newcastle, renamed Armstrong College in 1906. He was President of the Literary and Philosophical Society of Newcastle upon Tyne from 1860 until his death as well as twice president of the Institution of Mechanical Engineers. Armstrong gave £11,500 towards the building of Newcastle's Hancock Natural History Museum, which was completed in 1882. This sum is equivalent to over £555,000 in 2010. Lord Armstrong's generosity extended beyond his death. In 1901 his heir, William Watson-Armstrong gave £100,000 (equivalent to £10,936,410 in 2019),[22] for the building of the new Royal Victoria Infirmary in Newcastle upon Tyne. Its original 1753 building at Forth Banks near the River Tyne were inadequate and impossible to expand.[2] In 1903 the barony of Armstrong was revived in favour of William Watson-Armstrong.
Publications
- Armstrong, W.G. (18 April 1840), "On the application of a column of water as a motive power for driving machinery", The Mechanics' Magazine, J.C. Robertson, 32 (871): 530–536, illus. p. 529
- —— (1868). "On the transmission of power by water pressure, with the application to railway goods stations, forge and foundry cranes, and blast‐furnace hoists". Proc. Inst. Mech. Eng. Institution of Mechanical Engineers. 19 (1868): 21–26. doi:10.1243/PIME_PROC_1868_019_007_02.
- —— (1869), "Description of the hydraulic swing bridge for the North Eastern Railway over the River Ouse near Goole", Proc. Inst. Mech. Eng., Institution of Mechanical Engineers, 20 (1869): 121–126, doi:10.1243/PIME_PROC_1869_020_013_02, Plates: 17–24
References
- https://openplaques.org/plaques/43448
- McKenzie, Peter (1983). W.G. Armstrong: The Life and Times of Sir William George Armstrong, Baron Armstrong of Cragside. Longhirst Press. ISBN 0-946978-00-X.
- Dod, Robert P. (1860). The Peerage, Baronetage and Knightage of Great Britain and Ireland. London: Whitaker and Co. p. 93.
- https://www.telegraph.co.uk/finance/newsbysector/industry/9337316/End-of-industrial-era-as-last-munitions-factory-shuts.html
- Anderson, Antony F. (1978). "Sparks from Steam" (PDF). Electronics and Power (January).
- Dougan (1970)
- "Death of Lord Armstrong". History Today. 12 December 2000. Retrieved 10 March 2018.
- Bastable, Marshall J. (2004). Arms and the State, Sir William Armstrong and the Remaking of British Naval Power. UK: Ashgate. pp. 126–128. ISBN 0754634043.
- Hamer, F. E. (1931). The Personal Papers of Lord Rendel. UK: Ernest Benn. pp. 277–278.
- "The Armstrong Guns". The Times: Letters to the Editor. 21 January 1864.
- Henrietta Heald. "William Armstrong | Learning Centre". Williamarmstrong.info. Retrieved 10 March 2018.
- Pevsner & Richmond 2002, p. 244.
- "No. 23945". The London Gazette. 6 February 1873. p. 513.
- Watson, Garth (1988), The Civils, London: Thomas Telford Ltd, p. 251, ISBN 0-7277-0392-7
- IESIS Honorary Fellows
- https://www.historytoday.com/archive/death-lord-armstrong
- Higgins, Polly (6 September 2009). "The origins of Hydroelectricity". The Ecologist. Retrieved 6 September 2007.
- http://www.oxforddnb.com/view/10.1093/ref:odnb/9780198614128.001.0001/odnb-9780198614128-e-669
- http://www.cracroftspeerage.co.uk/online/content/armstrong1887.htm
- https://www.bamburghcastle.com/history/armstrong/did-you-know
- Short, Alice Isabella (1989) The contribution of William, Lord Armstrong to science and education. Doctoral thesis, Durham University. Chapter X.
- UK Retail Price Index inflation figures are based on data from Clark, Gregory (2017). "The Annual RPI and Average Earnings for Britain, 1209 to Present (New Series)". MeasuringWorth. Retrieved 2 February 2020.
Further reading
- Dougan, David (1970). The Great Gun-Maker: The Story of Lord Armstrong. Sandhill Press. ISBN 0-946098-23-9.CS1 maint: ref=harv (link)
- Heald, Henrietta (2012), William Armstrong: Magician of the North. Alnwick, Northumberland: McNidder & Grace. ISBN 978-0857160-42-3.
- Smith, Ken (2005), Emperor of Industry: Lord Armstrong of Cragside. Newcastle: Tyne Bridge Publishing, 48 pp. ISBN 1-85795-127-1.
- Bastable, Marshall J. (2004), Arms and the State, Sir William Armstrong and the Remaking of British Naval Power. UK: Ashgate, 300 pp. ISBN 0-7546-3404-3.
External links
- Works by or about William Armstrong, 1st Baron Armstrong at Internet Archive
- William Armstrong website
Wikimedia Commons has media related to William Armstrong, 1st Baron Armstrong. |
Professional and academic associations | ||
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Preceded by James Kennedy |
President of the Institution of Mechanical Engineers 1861–1862 |
Succeeded by Robert Napier |
Preceded by John Penn |
President of the Institution of Mechanical Engineers 1868–1869 |
Succeeded by John Ramsbottom |
Preceded by James Abernethy |
President of the Institution of Civil Engineers December 1881 – December 1882 |
Succeeded by James Brunlees |
Peerage of the United Kingdom | ||
New creation | Baron Armstrong 1887–1900 |
Extinct |