Hostname: page-component-cd9895bd7-fscjk Total loading time: 0 Render date: 2024-12-24T18:31:52.717Z Has data issue: false hasContentIssue false

A world of copper: globalizing the Industrial Revolution, 1830–70*

Published online by Cambridge University Press:  18 February 2015

Chris Evans
Affiliation:
University of South Wales, FBS, Treforest, CF37 1DL, UK E-mail: [email protected]
Olivia Saunders
Affiliation:
University of South Wales, FBS, Treforest, CF37 1DL, UK E-mail: [email protected]

Abstract

For most of human history the smelting of metallic ores has been performed immediately adjacent to the ore body. In the 1830s the copper industry that was centred on Swansea in the UK departed abruptly from that ancient pattern: Swansea smelters shipped in ores from very distant locations, including sites in Australasia, Latin America, and southern Africa. Swansea became the hub of a globally integrated heavy industry, one that deployed capital on a very large scale, implanted British industrial technologies in some very diverse settings, and mobilized a transnational workforce that included British-born ‘labour aristocrats’, Chinese indentured servants, and African slaves. This paper explores the World of Copper between its inception c.1830 and its demise in the aftermath of the American Civil War. It asks what the experience of this precociously globalized industry can contribute to some current concerns in global history.

Type
Articles
Copyright
Copyright © Cambridge University Press 2015 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

Footnotes

*

Our principal debt is to the Leverhulme Trust, which awarded Chris Evans an International Network Grant in 2012–13. That award allowed us to establish the World of Copper network, a grouping led by Evans and Olivia Saunders at the University of South Wales in collaboration with the universities of Exeter, Santiago de Chile, Swansea, Toulouse, and Western Australia. Our thanks go to everyone involved in the network, especially those who attended the workshops at Swansea in April 2012, Burra, South Australia, in September 2012, and Santiago in April 2013. Special thanks must go to Greg Drew of the Australasian Mining History Association who facilitated our visit to Burra, and Luis Ortega, our host at the University of Santiago de Chile. We have drawn freely upon discussions with a large number of historians, archaeologists, museum professionals, and mining enthusiasts. We do not expect all of them – indeed, perhaps any of them – to agree with the inferences that we have drawn or the conclusions that we have reached. The text is our responsibility and only ours. We are grateful to Stephen Hughes for his help with illustrations and to Martin Critchley for designing the map. Needless to say, we have benefitted greatly from the advice of the Journal's referees and editors.

References

1 Frédéric Le Play, Description des procédés métallurgiques employés dans le Pays de Galles pour la fabrication du cuivre, Paris: Carilian-Goeury et Von Dalmont, 1848, pp. 6–7.

2 Goody, Jack, Metals, culture and capitalism: an essay on the origins of the modern world, Cambridge: Cambridge University Press, 2012CrossRefGoogle Scholar; Killick, David and Fenn, Thomas, ‘Archaeometallurgy: the study of preindustrial mining and metallurgy’, Annual Review of Anthropology, 41, 2012, pp. 559–575CrossRefGoogle Scholar, esp. pp. 560–2.

3 See Piggot, A. Snowden, The chemistry and metallurgy of copper, including a description of the principal copper mines of the United States and other countries, Philadelphia, PA: Lindsay & Blakiston, 1858, pp. 193–285Google Scholar, for an inventory of production zones in the mid nineteenth century.

4 Berg, Maxine, Luxury and pleasure in eighteenth-century Britain, Oxford: Oxford University Press, 2005Google Scholar; Parthasarathi, Prasannan, Why Europe grew rich and Asia did not: global economic divergence, 1600–1850, Cambridge: Cambridge University Press, 2011CrossRefGoogle Scholar; Pomeranz, Kenneth, The great divergence: China, Europe, and the making of the modern world economy, Princeton, NJ: Princeton University Press, 2000Google Scholar.

5 Bowen, Huw, ‘Sinews of trade and empire: the supply of commodity exports to the East India Company during the late eighteenth century’, Economic History Review, 55, 3, 2002, pp. 466–486CrossRefGoogle Scholar; Glamman, Kristof, ‘The Dutch East India Company's trade in Japanese copper, 1645–1736’, Scandinavian Economic History Review, 1, 1, 1953, pp. 41–79Google Scholar; Shimada, Ryuto, The intra-Asian trade in Japanese copper by the Dutch East India Company during the eighteenth century, Leiden: Brill, 2006Google Scholar.

6 Hobsbawm, E. J., The age of revolution: Europe, 1789–1848, London: Weidenfeld & Nicholson, 1962Google Scholar; Landes, David, The unbound Prometheus: technological change and industrial development in western Europe from 1750 to the present, Cambridge: Cambridge University Press, 1969Google Scholar.

7 de Vries, Jan, The industrious revolution: consumer behavior and the household economy, 1650 to the present, Cambridge: Cambridge University Press, 2008CrossRefGoogle Scholar; Bayly, C.A., The birth of the modern world, 1780–1914: global connections and comparisons, Oxford: Blackwell, 2004Google Scholar.

8 Our emphasis differs from that expressed in the editor's introduction to Berg, Maxine, ed., Writing the history of the global: challenges for the twenty-first century, Oxford: Oxford University Press, 2013CrossRefGoogle Scholar, where the persistent gravitational pull of the Industrial Revolution is identified as a continued historiographical distortion.

9 Magee, Gary B. and Thompson, Andrew S., Empire and globalisation: networks of people, goods and capital in the British world, c.1850–1914, Cambridge: Cambridge University Press, 2010CrossRefGoogle Scholar; Belich, James, Replenishing the earth: the settler revolution and the rise of the Angloworld, 1783–1939, Oxford: Oxford University Press, 2009CrossRefGoogle Scholar; Bridge, Carl and Fedorowich, Kent, eds., The British world: diaspora, culture and identity, London: Frank Cass, 2003Google Scholar.

10 Austin, J. B., The mines of South Australia, including an account of the smelting works in that colony, Adelaide: Platts, 1863, p. 100Google Scholar; Mel Davies, ‘Land transport and the South Australian copper and smelting industries’, Revista de Historia Social y de las Mentalidades (forthcoming).

11 Play, Le, Description des procédés, p. 387Google Scholar: ‘fonderie centrale des minerais des deux océans’.

12 Grant-Francis, George, The smelting of copper in the Swansea district of South Wales, from the time of Elizabeth to the present day, London: H. Sotheran & Co., 1881Google Scholar.

13 King, Peter W., ‘Sir Clement Clerke and the adoption of coal in metallurgy’, Transactions of the Newcomen Society, 73, 2001–02, pp. 33–52CrossRefGoogle Scholar.

14 The reverberatory furnace was fundamental to the ‘Welsh Process’ practised at Swansea. It had three essential features, shown in Figure 1 from right to left in plan and side-view: (i) the fire-grate in which coal was burnt, (ii) the hearth in which mineral material was roasted, smelted, or refined, and (iii) a flue (‘f’ in the side-view) leading to the stack. The height and narrowness of the chimney stack created a powerful draught that swept flame and combustion gases from the fire-grate across the hearth. The sloping roof of the hearth served to deflect (or ‘reverberate’) radiant heat down onto the mineral charge. The reverberatory furnace's great attraction lay in the degree of control that it offered the smelter – control that was not available to the users of blast furnaces. The raising or lowering of the damper on the stack enabled furnacemen to modulate the reduction process with speed and some delicacy. Moreover, the progress of the operation could be directly observed via the furnace door, through which furnacemen could also manipulate the mineral charge. Reverberatory furnaces varied in size and function. The largest of these low brick structures were used for the calcining of ore, a preliminary roasting in which volatile sulphurous matter was burnt off. According to one Swansea copper master, calciner hearths were ‘commonly from 17 to 19 feet in length from the bridge to the flue, and from 14 to 16 in width’. The furnaces in which the subsequent smelting and refining operations were carried out were much smaller, ‘not exceeding 11 or 11½ feet in length by 7½ or 8 feet in the broadest part’ (John Henry Vivian, ‘An account of the process of smelting copper as conducted at the Hafod copper works, near Swansea’, Annals of Philosophy, new series, 5, 1823, p. 114). The furnace shown here was used for the second operation in a sequence of ten. Calcined ore was deposited in the furnace via the hopper marked ‘H’ in the side-view. The smelting process yielded a liquid copper matte that gathered in a depression in the hearth floor (‘h’ in the plan). This was tapped into a tank of water (‘W’ in the plan and shown in section in the side-view). The matte granulated in contact with the water. Winched clear of the tank in baskets, it was dried and carted off to a different furnace for the third operation.

15 Vivian, Henry Hussey, Copper smelting: its history and processes, New York: The Scientific Publishing Co., 1881, p. 18Google Scholar.

16 Hughes, Stephen, Copperopolis: landscapes of the early industrial period in Swansea, Aberystwyth: Royal Commission on the Ancient and Historical Monuments of Wales, 2008Google Scholar.

17 Scoffern, John, Truran, William, Clay, William, Oxland, Robert, Fairbairn, William, Aitkin, W.C., and Vose Pickett, William, The useful metals and their alloys, London: Houlston & Wright, 1866, p. 551Google Scholar.

18 Newell, Edmund, ‘“Copperopolis”: the rise and fall of the copper industry in the Swansea district, 1826–1921’, Business History, 32, 3, 1990, pp. 75–97CrossRefGoogle Scholar, esp. pp. 78–80.

19 Newell, Edmund, ‘The British copper ore trade in the nineteenth century, with particular reference to Cornwall and Swansea’, PhD thesis, University of Oxford, 1988, p. 82Google Scholar.

20 Evans, Chris, ‘El Cobre: Cuban ore and the globalization of Swansea copper, 1830–70’, Welsh History Review, 27, 1, 2014, pp. 112–131Google Scholar; de Montaud, Inés Roldán, ‘El ciclo cubano del cobre en el siglo XIX, 1830–1868’, Boletín Geológico y Minero, 119, 3, 2008, pp. 361–382Google Scholar.

21 Percy, John, Metallurgy: the art of extracting metals from their ores, and adapting them to various purposes of manufacture, London: John Murray, 1861, p. 322Google Scholar.

22 Hall, Douglas, Free Jamaica, 1838–1865: an economic history, New Haven, CT: Yale University Press, 1959, pp. 138–152Google Scholar; Burt, Roger, ‘Virgin Gorda copper mine, 1839–1862’, Industrial Archaeology Review, 6, 1, 1981, pp. 56–62CrossRefGoogle Scholar.

23 Smalberger, John M., Aspects of the history of copper mining in Namaqualand, 1846–1931, Cape Town: C. Struik, 1975, p. 127Google Scholar, table A; Hyde, Charles K., Copper for America: the United States copper industry from colonial times to the 1990s, Tucson, AZ: University of Arizona Press, 1998, p. 20Google Scholar; Young, Otis E., ‘Origins of the American copper industry’, Journal of the Early Republic, 3, 1983, p. 132Google Scholar; Patricia Bernard Ezzell, ‘Burra Burra Copper Company’, The Tennessee Encyclopedia of History and Culture, http://tennesseeencyclopedia.net/entry.php?rec=162 (consulted 24 July 2013).

24 Bloomfield, G. T., ‘The Kawau copper mine, New Zealand’, Industrial Archaeology, 11, 1, 1974, pp. 1–10Google Scholar; Smalberger, Aspects, Table C (folded in after p. 143).

25 Evans, ‘El Cobre’.

26 See Nuvolari, Alessandro, The making of steam power technology: a study of technical change during the British Industrial Revolution, Eindhoven: Technische Universiteit Eindhoven, 2004Google Scholar, for the peculiarities of the Cornish steam tradition, and Curry-Machado, Jonathan, ‘“Rich flames and hired tears”: sugar, sub-imperial agents, and the Cuban phoenix of empire’, Journal of Global History, 4, 1, 2009, pp. 33–56Google Scholar, for the impact of predominantly non-Cornish steam technologies in Cuba's sugar sector.

27 Turnbull, David, Travels in the west. Cuba; with notices of Porto Rico, and the slave trade, London: Longman, Orme, Brown, Green, and Longmans, 1840, p. 14Google Scholar.

28 Quoted in Mayo, John, ‘Commerce, credit and control in Chilean copper mining before 1880’, in Thomas Greaves and William Culver, eds., Miners and mining in the Americas, Manchester: Manchester University Press, 1985, p. 33Google Scholar.

29 Darwin, Charles, Journal of researches into the natural history and geology of the countries visited during the voyage round the world of H.M.S. Beagle, London: John Murray, 1913, p. 277Google Scholar.

30 Carmagnani, Marcello, Los mecanismos de la vida económica en una sociedad colonial: Chile 1680–1830, Santiago: Dirección de bibliotecas, archivos y museos, 2001, pp. 55Google Scholar, 61.

31 Accounts relating to the import and export of copper, copper ore, brass and copper manufactures, British Parliamentary Papers 637, 1847, p. 2.

32 Veliz, Claudio, ‘Egaña, Lambert, and the Chilean mining associations of 1825’, Hispanic American Historical Review, 55, 4, 1975, pp. 637–663Google Scholar.

33 Valenzuela, Luis, ‘The Chilean copper-smelting industry in the mid-nineteenth century: phases of expansion and stagnation, 1834–1858’, Journal of Latin American Studies, 24, 3, 1992, pp. 507–550Google Scholar; Ortega, Luis, ‘The first four decades of the Chilean coal mining industry, 1840–1879’, Journal of Latin American Studies, 14, 1, 1982, pp. 1–32CrossRefGoogle Scholar.

34 Shute, Jason, Henry Ayers: the man who became a rock, London: I.B. Tauris, 2010Google Scholar.

35 Bell, Peter and McCarthy, Justin, ‘The evolution of early copper smelting technology in Australia (Part I)’, Journal of Australasian Mining History, 8, 2010, p. 3Google Scholar.

36 Mel Davies, ‘Balanced costs: inland copper smelting location and fuel in South Australia 1848–76: were they so naive?’, University of Western Australia, Department of Economics, working paper 05–25, 2005, pp. 1–17.

37 South Australian Register, 4 October 1848.

38 Greg Drew, ‘The Leyshon Joneses: father and son Welsh smeltermen who dominated the South Australian smelting industry from 1848–1877’, unpublished paper for World of Copper workshop, Burra, South Australia, 24–26 September 2012.

39 South Australian, 22 March 1844.

40 Payton, Philip, The Cornish overseas, Fowey: Alexander Associates, 1999, pp. 166–201Google Scholar.

41 South Australian, 14 March 1848.

42 Austin, , Mines of South Australia, pp. 9899Google Scholar.

43 Quoted in Jones, Bill, ‘Labour migration and cross-cultural encounters: Welsh copper workers in Chile in the nineteenth century’, Welsh History Review, 27, 1, 2014, p. 133Google Scholar.

44 The Times, 20 January 1874.

45 Luis Ortega, ‘Fragilities of a frontier zone: townships and villages in the copper mining districts of Chile 1830–1875’, unpublished paper for World of Copper workshop, Burra, South Australia, 24–26 September 2012.

46 Smalberger, Aspects, p. 69; Edmund Newell, ‘Taylor, John (1779–1863)’, Oxford Dictionary of National Biography, Oxford University Press, 2004, http://www.oxforddnb.com/view/article/27059 (consulted 28 August 2013).

47 Smalberger, , Aspects, p. 105Google Scholar; Payton, , Cornish overseas, pp. 347349Google Scholar.

48 Quoted in Smalberger, , Aspects, p. 107Google Scholar.

49 Quoted in ibid., p. 106.

50 Worden, Nigel and Crais, Clifton, ‘Introduction’, in Nigel Worden and Clifton Crais, eds., Breaking the chains: slavery and its legacy in the nineteenth-century Cape Colony, Johannesburg: Witwatersrand University Press, 1994Google Scholar, p. 6.

51 Banton, M. K., ‘The Colonial Office, 1820–1855: constantly the subject of small struggles’, in Douglas Hay and Paul Craven, eds., Masters, servants, and magistrates in Britain and the empire, 1562–1955, Chapel Hill, NC: University of North Carolina Press, 2004, pp. 262–264Google Scholar.

52 Morning Chronicle, 19 March 1838, p. 1.

53 The National Archives (henceforth TNA), FO 84/201, ‘Summary of the distribution of the operatives employed at the Royal Consolidated Cobre Mines’, enclosed in John Hardy, Jr to Lord Palmerston, 27 December 1836.

54 Chris Evans, ‘Carabalí and culíes at El Cobre: African slaves and Chinese indentured labourers in the service of Swansea copper’, Revista de Historia Social y de las Mentalidades (forthcoming); Evans, Chris, ‘Brazilian gold, Cuban copper and the final frontier of British anti-slavery’, Slavery & Abolition, 34, 1, 2013, pp. 118–134CrossRefGoogle Scholar.

55 Turnbull, , Travels in the west, p. 9Google Scholar.

56 TNA, FO 72/634, Charles Clarke to Joseph Crawford, 27 April 1843.

57 Mary Turner, ‘Chinese contract labour in Cuba, 1847–1874’, in Beckles, Hilary and Shepherd, Verene, eds., Caribbean freedom: economy and society from emancipation to the present, Princeton, NJ: M. Wiener Publishers, 1996, pp. 132–140Google Scholar.

58 Vivian, , Copper smelting, pp. 3334Google Scholar.

59 Exposition of the Baltimore and Cuba Smelting & Mining Company, Baltimore, MD: Robert Neilson, 1845.

60 Piggot, Snowden, Chemistry and metallurgy, pp. 331337Google Scholar.

61 John Henry Vivian, ‘An account of the process of smelting copper as conducted at the Hafod copper works, near Swansea’, Annals of Philosophy, n.s. 5, 1823, pp. 113–24.

62 James Napier, ‘On copper smelting’, London, Edinburgh and Dublin Philosophical Magazine and Journal of Science, 4th series, 4, 1852, pp. 45–59, 192–201, 262–71, 345–55, 453–65; 4th series, 5, 1853, pp. 30–9, 175–84, 345–54, 486–93.

63 Davies, , ‘Balanced costs’, p. 3Google Scholar.

64 Valenzuela, , ‘Chilean copper-smelting industry’, p. 522Google Scholar.

65 Manuel Llorca, ‘Chilean exports of copper to Wales during the nineteenth century: their impact on the Chilean and Welsh economies’, Revista de Historia Social y de las Mentalidades (forthcoming).

66 Consolidated Copper Mines of Cobre: report of Mr Petherick, F.G.S., London: George Unwin, 1863, pp. 9–10; Smalberger, Aspects, p. 69.

67 Truett, Samuel, Fugitive landscapes: the forgotten history of the U.S.–Mexico borderlands, New Haven, CT: Yale University Press, 2006, p. 80Google Scholar; Fell, James E. Jr, Ores to metals: the Rocky Mountain smelting industry, Boulder, CO: University Press of Colorado, 2009, pp. 30–34Google Scholar.

68 Payton, Philip, Making Moonta: the invention of Australia's Little Cornwall, Exeter: Exeter University Press, 2007Google Scholar.

69 Leitner, Jonathan, ‘Red metal in the age of capital: the political ecology of copper in the nineteenth-century world-economy’, Review: A Journal of the Fernand Braudel Center for the Study of Economies, Historical Systems, and Civilizations, 24, 3, 2001Google Scholar, pp. 411, 416–17.

70 Peters, Edward Dyer, The practice of copper smelting, New York and London: McGraw-Hill Book Co., 1911, p. 326Google Scholar.

71 Craig, Robin, ‘The copper ore trade’, in David Alexander and Rosemary Ommer, eds., Volumes not values: Canadian sailing ships and world trades, St John's, Newfoundland: Memorial University of Newfoundland Maritime History Group, 1979, pp. 277–302Google Scholar; Jones, W.H., History of the port of Swansea, Carmarthen: W. Spurrell & Son, 1922Google Scholar.

72 Newell, , ‘British copper ore trade’, pp. 3641Google Scholar.

73 Roberts, R. O., ‘The smelting of non-ferrous metals since 1750’, in Arthur H. John and Glanmor Williams, eds., Glamorgan county history. Vol. 5: industrial Glamorgan from 1700–1970, Cardiff: Glamorgan County Council, 1980, pp. 74–75Google Scholar.

74 Peters, , Practice of copper smelting, p. 533Google Scholar.

75 Evans, Chris, Slave Wales: the Welsh and Atlantic slavery, 1660–1850, Cardiff: University of Wales Press, 2010, pp. 31–41Google Scholar; Zahedieh, Nuala, ‘Colonies, copper, and the market for inventive activity in England and Wales, 1680–1730’, Economic History Review, 66, 3, 2013, pp. 805–825Google Scholar.

76 Bowen, ‘Sinews of trade’.

77 The centrality of mineral energy to British industrialization is the theme of Wrigley, E. A., Continuity, chance and change: the character of the Industrial Revolution in England, Cambridge: Cambridge University Press, 1998Google Scholar, and Allen, R.C., The British Industrial Revolution in global perspective, Cambridge: Cambridge University Press, 2009CrossRefGoogle Scholar.

78 Vivian, , Copper smelting, p. 18Google Scholar.

79 British Parliamentary Papers, 1847–48 (186). Copper duties. Copies of all memorials in reference to the copper duties, which have been presented to the Treasury or other departments of government since July 1847.

80 Beckert, Sven, ‘Emancipation and empire: reconstructing the worldwide web of cotton production in the age of the American Civil War’, American Historical Review, 109, 5, 2004, p. 1435CrossRefGoogle Scholar. See also Bayly, , Birth of the modern world, pp. 162163Google Scholar.

81 Schmitz, Christopher, ‘The rise of big business in the world copper industry 1870–1930’, Economic History Review, 39, 3, 1986, p. 396Google Scholar.

82 LeCain, Timothy J., Mass destruction: the men and giant mines that wired America and scarred the planet, New Brunswick, NJ: Rutgers University Press, 2009, pp. 129–137Google Scholar.

83 Peter Bell and Justin McCarthy, ‘The evolution of early copper smelting technology in Australia (Part II)’, Journal of Australasian Mining History, 9, September 2011, p. 31.

84 TNA, FO 72/1222, copy of the emancipation decree of 31 December 1868.

85 See the sales ledgers of the English & Australian Copper Company (State Library of South Australia, BRG 30/1), and Vivian, J. E. and Younger, Edward, Remarks on the position and prospects of the copper trade in England as affected by the war between Spain and Chili, London: Effingham Wilson, 1866, pp. 8Google Scholar, 11.