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Wootz steel

February 15, 2024

Wootz steel, also known as Seric steel, is a crucible steel characterized by a pattern of bands and high carbon content. These bands are formed by sheets of microscopic carbides within a tempered martensite or pearlite matrix in higher-carbon steel, or by ferrite and pearlite banding in lower-carbon steels. It was a pioneering steel alloy developed in southern India in the mid-1st millennium BC and exported globally.[1]

Crucible steels like wootz steel and Damascus steel exhibit unique banding patterns because of the intermixed ferrite and cementite alloys in the steel.

History edit

Wootz steel originated in the mid-1st millennium BC in South India, in present-day Tiruchirappalli, Kodumanal, Erode, Tamil Nadu.[1] There are several ancient Tamil, North Indian, Greek, Chinese and Roman literary references to high-carbon Tamil steel.[citation needed] In later times[when?], wootz steel was also made in Golconda in Telangana, Karnataka and Sri Lanka.[2][3][4][5] The steel was exported as cakes of steely iron that came to be known as "Wootz".[6]

The method was to heat black magnetite ore in the presence of carbon in a sealed clay crucible inside a charcoal furnace to completely remove slag. An alternative was to smelt the ore first to give wrought iron, then heat and hammer it to remove slag. The carbon source was bamboo and leaves from plants such as Avārai.[6][7] The Chinese and locals in Sri Lanka adopted the production methods of creating wootz steel from the Chera Tamils by the 5th century BC.[8][9] In Sri Lanka, this early steel-making method employed a unique wind furnace, driven by the monsoon winds. Production sites from antiquity have emerged, in places such as Anuradhapura, Tissamaharama and Samanalawewa, as well as imported artifacts of ancient iron and steel from Kodumanal. Recent archaeological excavations (2018) of the Yodhawewa site (in Mannar District) discovered a lower half-spherical furnace, crucible fragments, and lid fragments related to the crucible steel production through the carburization process.[10] A 200 BC Tamil trade guild in Tissamaharama, in the South East of Sri Lanka, brought with them some of the oldest iron and steel artifacts and production processes to the island from the classical period.[11][12][13][14]

Trade between South India and Sri Lanka through the Arabian Sea introduced wootz steel to Arabia. The term muhannad مهند or hendeyy هندي in pre-Islamic and early Islamic Arabic refers to sword blades made from Indian steel, which were highly prized, and are attested in Arabic poetry. Further trade spread the technology to the city of Damascus, where an industry developed for making weapons of this steel. This led to the development of Damascus steel. The 12th century Arab traveler Edrisi mentioned the "Hinduwani" or Indian steel as the best in the world.[15] Arab accounts also point to the fame of 'Teling' steel, which can be taken to refer to the region of Telangana. The Golconda region of Telangana clearly being the nodal centre for the export of wootz steel to West Asia.[15]

Another sign of its reputation is seen in a Persian phrase – to give an "Indian answer", meaning "a cut with an Indian sword".[9] Wootz steel was widely exported and traded throughout ancient Europe and the Arab world, and became particularly famous in the Middle East.[9]

 
Detail of 17th–18th C. Indian tulwar/shamshir

Development of modern metallurgy edit

From the 17th century onwards, several European travelers observed the steel manufacturing in South India, at Mysore, Malabar and Golconda. The word "wootz" appears to have originated as a mistranscription of wook; the Tamil language root word for the alloy is urukku.[16] Another[which?]theory says that the word is a variation of uchcha or ucha[dubious discuss] ("superior"). According to one theory, the word ukku is based on the meaning "melt, dissolve". Other Dravidian languages have similar-sounding words for steel: ukku in Kannada[17][18] and Telugu, and urukku in Malayalam. When Benjamin Heyne inspected the Indian steel in Ceded Districts and other Kannada-speaking areas, he was informed that the steel was ucha kabbina ("superior iron"), also known as ukku tundu in Mysore.[19][20]

Legends of wootz steel and Damascus swords aroused the curiosity of the European scientific community from the 17th to the 19th century. The use of high-carbon alloys was little known in Europe[21] previously and thus the research into wootz steel played an important role in the development of modern English, French and Russian metallurgy.[22]

In 1790, samples of wootz steel were received by Sir Joseph Banks, president of the British Royal Society, sent by Helenus Scott. These samples were subjected to scientific examination and analysis by several experts.[23][24][25]

Specimens of daggers and other weapons were sent by the Rajas of India to the Great Exhibition in London in 1851 and 1862 International Exhibition. Though the arms of the swords were beautifully decorated and jeweled, they were most highly prized for the quality of their steel. The swords of the Sikhs were said to bear bending and crumpling, and yet be fine and sharp.[9]

Characteristics edit

Wootz is characterized by a pattern caused by bands of clustered Fe
3C particles made by melting of low levels of carbide-forming elements.[26] Wootz contains greater carbonaceous matter than common qualities of cast steel.[citation needed]

The distinct patterns of Wootz steel that can be made through forging are wave, ladder, and rose patterns with finely spaced bands. However, with hammering, dyeing, and etching further customized patterns were made.[27]

The presence of cementite nanowires and carbon nanotubes has been identified by Peter Pepler of TU Dresden in the microstructure of wootz steel.[28] There is a possibility of an abundance of ultrahard metallic carbides in the steel matrix precipitating out in bands.Wootz swords were renowned for their sharpness and toughness.[29]

Composition edit

T. H. Henry analyzed and recorded the composition of wootz steel samples provided by the Royal School of Mines. Recording:

Wootz steel was analyzed by Michael Faraday and recorded to contain 0.01-0.07% aluminium. Faraday, Messrs (et al.), and Stodart hypothesized that aluminium was needed in the steel and was important in forming the excellent properties of wootz steel. However T. H. Henry deduced that presence of aluminium in the Wootz used by these studies was due to slag, forming as silicates. Percy later reiterated that the quality of wootz steel does not depend on the presence of aluminium.[30]

Reproduction research edit

Wootz steel has been reproduced and studied in depth by the Royal School of Mines.[31] Dr. Pearson was the first to chemically examine wootz in 1795 and he published his contributions to the Philosophical Transactions of the Royal Society.[32]

Russian metallurgist Pavel Petrovich Anosov (see Bulat steel) was almost able to reproduce ancient Wootz steel with nearly all of its properties and the steel he created was very similar to traditional Wootz. He documented four different methods of producing Wootz steel that exhibited traditional patterns. He died before he could fully document and publish his research. Oleg Sherby and Jeff Wadsworth and Lawrence Livermore National Laboratory have all done research, attempting to create steels with characteristics similar to Wootz, but without success. J.D Verhoeven and Alfred Pendray reconstructed methods of production, proved the role of impurities of ore in the pattern creation, and reproduced Wootz steel with patterns microscopically and visually identical to one of the ancient blade patterns. Reibold et al.'s analyses spoke of the presence of carbon nanotubes enclosing nanowires of cementite, with the trace elements/impurities of vanadium, molybdenum, chromium etc. contributing to their creation, in cycles of heating/cooling/forging. This resulted in a hard high carbon steel that remained malleable[33]

There are smiths who are now consistently producing Wootz steel blades visually identical to the old patterns.[34] Steel manufactured in Kutch particularly enjoyed a widespread reputation, similar to those manufactured at Glasgow and Sheffield.[9]

Wootz was made over nearly a 2,000-year period (the oldest sword samples date to around 200 AD) and the methods of production of ingots, the ingredients, and the methods of forging varied from one area to the next. Some Wootz blades displayed a pattern, while some did not. Heat treating was quite different from forging, and there were many different patterns which were created by the various smiths who spanned from China to Scandinavia.[citation needed]

See also edit

References edit

  1. ^ a b J.‐S. Park K. Rajan R. Ramesh (2020). "High‐carbon steel and ancient sword‐making as observed in a double‐edged sword from an Iron Age megalithic burial in Tamil Nadu, India". Archaeometry. 62: 68–80. doi:10.1111/arcm.12503.
  2. ^ Srinivasan, Sharada (15 November 1994). "Wootz crucible steel: a newly discovered production site in South India". Papers from the Institute of Archaeology. 5: 49–59. doi:10.5334/pia.60.
  3. ^ Wijepala, W. M. T. B.; Young, Sansfica M.; Ishiga, Hiroaki (1 April 2022). "Reading the archaeometallurgical findings of Yodhawewa site, Sri Lanka: contextualizing with South Asian metal history". Asian Archaeology. 5 (1): 21–39. doi:10.1007/s41826-022-00046-0. ISSN 2520-8101. S2CID 247355036.
  4. ^ Coghlan, Herbert Henery (1977). Notes on prehistoric and early iron in the Old World (2nd ed.). Pitt Rivers Museum. pp. 99–100.
  5. ^ Sasisekharan, B. (1999). (PDF). Indian Journal of History of Science. 34 (4). Archived from the original (PDF) on 24 July 2015.
  6. ^ a b Davidson, Hilda Roderick Ellis (1998). The Sword in Anglo-Saxon England: Its Archaeology and Literature. Boydell & Brewer. p. 20. ISBN 978-0-85115-716-0.
  7. ^ Burton, Sir Richard Francis (1884). The Book of the Sword. London: Chatto & Windus. p. 111.
  8. ^ Needham, Joseph (1 April 1971). Science and Civilisation in China: Volume 4, Physics and Physical Technology. Cambridge University Press. p. 282. ISBN 978-0-52107-060-7.
  9. ^ a b c d e Manning, Charlotte Speir. Ancient and Medieval India. Vol. 2. p. 365. ISBN 978-0-543-92943-3.
  10. ^ Wijepala, W. M. T. B.; Young, Sansfica M.; Ishiga, Hiroaki (1 April 2022). "Reading the archaeometallurgical findings of Yodhawewa site, Sri Lanka: contextualizing with South Asian metal history". Asian Archaeology. 5 (1): 21–39. doi:10.1007/s41826-022-00046-0. ISSN 2520-8101. S2CID 247355036.
  11. ^ Hobbies (April 1963) Vol. 68, No.5, p.45, Chicago: Lightner Publishing Company.
  12. ^ Mahathevan, Iravatham (24 June 2010). "An epigraphic perspective on the antiquity of Tamil". The Hindu. The Hindu Group. Retrieved 31 October 2010.
  13. ^ Ragupathy, P. (28 June 2010). "Tissamaharama potsherd evidences ordinary early Tamils among population". Tamilnet. Retrieved 31 October 2010.
  14. ^ "Dinithi" (PDF). Sri Lanka Archaeology. 1 (4). February 2012.[permanent dead link]
  15. ^ a b Srinivasan, Sharada; Ranganathan, Srinivasa (2004). "India's Legendary Wootz Steel: An Advanced Material of the Ancient World". Iron & Steel Heritage of India: 69–82. OCLC 82439861.
  16. ^ Pande, Girija; af Geijerstam, Jan (2002). Tradition and innovation in the history of iron making: an Indo-European perspective. Pahar Parikarma. p. 45. ISBN 978-81-86246-19-1.
  17. ^ Narasimha, Roddam; Srinivasan, J.; Biswas, S. K. (2003). The Dynamics of Technology: Creation and Diffusion of Skills and Knowledge. SAGE Publications. p. 135. ISBN 978-0-7619-9670-5.
  18. ^ Michael Faraday, as quoted by Day, Peter (1 January 1999). The Philosopher's Tree. Bristol, UK: Institute of Physics Publishing. p. 108. ISBN 978-0-7503-0571-6.
  19. ^ Balfour, Edward (1885). The Cyclopædia of India and of Eastern and Southern Asia, Commercial Industrial, and Scientific: Products of the Mineral, Vegetable, and Animal Kingdoms, Useful Arts and Manufactures. Bernard Quaritch. p. 1092.
  20. ^ Jeans, James Stephen (1880). Steel: Its History, Manufacture, Properties and Uses. E. & F.N. Spon. p. 294.
  21. ^ Godfrey, Evelyne; van Nie, Matthijs (2004). "A Germanic ultrahigh carbon steel punch of the Late Roman-Iron Age" (PDF). Journal of Archaeological Science. 31 (8): 1117–25. Bibcode:2004JArSc..31.1117G. doi:10.1016/j.jas.2004.02.002.
    • Paul Rincon (12 May 2004). "Iron Age tool marks move to steel". BBC News.
  22. ^ Smith, Cyril Stanley (2012). A History of Metallography: The Development of Ideas on the Structure of Metals Before 1890. Literary Licensing. ISBN 978-1-258-47336-5.
  23. ^ Pearson, George (1 January 1795). "Experiments and Observations to Investigate the Nature of a Kind of Steel, Manufactured at Bombay, and There Called Wootz: With Remarks on the Properties and Composition of the Different States of Iron". Philosophical Transactions of the Royal Society of London. Royal Society of London. 85: 322–346. doi:10.1098/rstl.1795.0020. JSTOR 106960.
  24. ^ Mushet, D. (1 January 1805). "Experiments on Wootz". Philosophical Transactions of the Royal Society of London. 95: 163–175. doi:10.1098/rstl.1805.0010. JSTOR 107164. S2CID 115267901.
  25. ^ Hadfield, Robert (1932). "A Research on Faraday's "Steel and Alloys". Philosophical Transactions of the Royal Society of London. 230 (681–693): 221–292. Bibcode:1932RSPTA.230..221H. doi:10.1098/rsta.1932.0007. JSTOR 91231.
  26. ^ Verhoeven, Pendray & Dauksch 1998
  27. ^ Durand-Charre, Madeleine (2004). Microstructure of Steels and Cast Irons. Springer. ISBN 978-3-540-20963-8.
  28. ^ Sanderson, Katharine (15 November 2006). "Sharpest cut from nanotube sword". Nature. doi:10.1038/news061113-11. S2CID 136774602.
  29. ^ "What is Wootz steel?". noblie.eu.
  30. ^ Percy, John (1864). Metallurgy: The Art of Extracting Metals from Their Ores, and Adapting Them to Various Purposes of Manufacture. J. Murray. p. 183.
  31. ^ Ure, Andrew (1821). A Dictionary of Chemistry: On the Basis of Mr. Nicholson's, in which the Principles of the Science are Investigated Anew and Its Applications to the Phenomena of Nature, Medicine, Mineralogy, Agriculture, and Manufactures Detailed. Robert Desilver. p. 45.
  32. ^ Neogi, Panchanan (1914). Iron in ancient India. Indian Association for the Cultivation of Science.
  33. ^ Reibold, Marianne; Paufler, Peter; Levin, Aleksandr A.; Kochmann, Werner; Pätzke, Nora; Meyer, Dirk C. (2009). Discovery of Nanotubes in Ancient Damascus Steel. Springer Proceedings in Physics. Vol. 127. Springer. pp. 305–310. Bibcode:2009penm.book..305R. doi:10.1007/978-3-540-88201-5_35. ISBN 978-3-540-88200-8. {{cite book}}: |work= ignored (help)
  34. ^ Sherby, Oleg; Wadsworth, Jeffrey (23 November 2001). "Ancient blacksmiths, the Iron Age, Damascus steels, and modem metallurgy". Journal of Materials Processing Technology. 117 (3): 347–353. doi:10.1016/S0924-0136(01)00794-4.

Further reading edit

  • Srinivasan, Sharada (1994). "Wootz crucible steel: a newly discovered production site in South India". Papers from the Institute of Archaeology. 5: 49–59. doi:10.5334/pia.60.
  • Srinivasan, S.; Griffiths, D. "South Indian wootz: evidence for high-carbon steel from crucibles from a newly identified site and preliminary comparisons with related finds". Material Issues in Art and Archaeology. 462.
  • Hansson, Staffan (2002). Den skapande människan [The creative mind] (in Swedish). Lund, Sweden: Studentlitteratur AB. p. 81. ISBN 978-9-14402-148-5.
  • urukku - from the Tamil Lexicon, University of Madras
  • "Special Issue: History and Characteristics of Wootz Steel in India and Abroad". Indian Journal of History of Science. 42 (3). September 2007.
  • Srinivasan, Sharada; Ranganathan, Srinivasan (2004). India's Legendary Wootz Steel: an advanced material of the ancient world. Bangalore: National Institute of Advanced Studies and Indian Institute of Science.
  • Verhoeven, J. D. (January 2001). "The Mystery of Damascus Blades". Scientific American. 284 (1): 74–79. Bibcode:2001SciAm.284a..74V. doi:10.1038/scientificamerican0101-74. JSTOR 26059015. PMID 11132427.

External links edit

  • Verhoeven, J.D.; Pendray, A.H.; Dauksch, W.E. (1998). "The key role of impurities in ancient Damascus steel blades". JOM. 50 (9): 58–64. Bibcode:1998JOM....50i..58V. doi:10.1007/s11837-998-0419-y. S2CID 135854276.
  • Verhoeven, J.D.; Pendray, A.H.; Dauksch, W.E. (September 2004). "The continuing study of damascus steel: Bars from the alwar armory". JOM. 56 (9): 17–20. Bibcode:2004JOM....56i..17V. doi:10.1007/s11837-004-0193-4. S2CID 137555792.
  • Verhoeven, J.D. (2007). "Pattern Formation in Wootz Damascus Steel Swords and Blades" (PDF). Indian Journal of History of Science. 42 (4): 559–574.
  • Wootz Militaria
  • Archived at Ghostarchive and the : Provos, Niels (3 May 2013). Wootz Ep 4: Making Wootz Steel. YouTube.
  • Archived at Ghostarchive and the : Loades, Mike; Pendray, Al (21 November 2017). The Secrets of Wootz Damascus Steel. YouTube.
  • US 5185044, Verhoeven, J.D. & Pendray, A.H., "Method of making "Damascus" blades", published 9 February 1993 

February 15, 2024
wootz, steel, this, article, needs, additional, citations, verification, please, help, improve, this, article, adding, citations, reliable, sources, unsourced, material, challenged, removed, find, sources, news, newspapers, books, scholar, jstor, october, 2021. This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Wootz steel news newspapers books scholar JSTOR October 2021 Learn how and when to remove this template message Wootz steel also known as Seric steel is a crucible steel characterized by a pattern of bands and high carbon content These bands are formed by sheets of microscopic carbides within a tempered martensite or pearlite matrix in higher carbon steel or by ferrite and pearlite banding in lower carbon steels It was a pioneering steel alloy developed in southern India in the mid 1st millennium BC and exported globally 1 Crucible steels like wootz steel and Damascus steel exhibit unique banding patterns because of the intermixed ferrite and cementite alloys in the steel Contents 1 History 1 1 Development of modern metallurgy 2 Characteristics 2 1 Composition 3 Reproduction research 4 See also 5 References 6 Further reading 7 External linksHistory editWootz steel originated in the mid 1st millennium BC in South India in present day Tiruchirappalli Kodumanal Erode Tamil Nadu 1 There are several ancient Tamil North Indian Greek Chinese and Roman literary references to high carbon Tamil steel citation needed In later times when wootz steel was also made in Golconda in Telangana Karnataka and Sri Lanka 2 3 4 5 The steel was exported as cakes of steely iron that came to be known as Wootz 6 The method was to heat black magnetite ore in the presence of carbon in a sealed clay crucible inside a charcoal furnace to completely remove slag An alternative was to smelt the ore first to give wrought iron then heat and hammer it to remove slag The carbon source was bamboo and leaves from plants such as Avarai 6 7 The Chinese and locals in Sri Lanka adopted the production methods of creating wootz steel from the Chera Tamils by the 5th century BC 8 9 In Sri Lanka this early steel making method employed a unique wind furnace driven by the monsoon winds Production sites from antiquity have emerged in places such as Anuradhapura Tissamaharama and Samanalawewa as well as imported artifacts of ancient iron and steel from Kodumanal Recent archaeological excavations 2018 of the Yodhawewa site in Mannar District discovered a lower half spherical furnace crucible fragments and lid fragments related to the crucible steel production through the carburization process 10 A 200 BC Tamil trade guild in Tissamaharama in the South East of Sri Lanka brought with them some of the oldest iron and steel artifacts and production processes to the island from the classical period 11 12 13 14 Trade between South India and Sri Lanka through the Arabian Sea introduced wootz steel to Arabia The term muhannad مهند or hendeyy هندي in pre Islamic and early Islamic Arabic refers to sword blades made from Indian steel which were highly prized and are attested in Arabic poetry Further trade spread the technology to the city of Damascus where an industry developed for making weapons of this steel This led to the development of Damascus steel The 12th century Arab traveler Edrisi mentioned the Hinduwani or Indian steel as the best in the world 15 Arab accounts also point to the fame of Teling steel which can be taken to refer to the region of Telangana The Golconda region of Telangana clearly being the nodal centre for the export of wootz steel to West Asia 15 Another sign of its reputation is seen in a Persian phrase to give an Indian answer meaning a cut with an Indian sword 9 Wootz steel was widely exported and traded throughout ancient Europe and the Arab world and became particularly famous in the Middle East 9 nbsp Detail of 17th 18th C Indian tulwar shamshirDevelopment of modern metallurgy edit From the 17th century onwards several European travelers observed the steel manufacturing in South India at Mysore Malabar and Golconda The word wootz appears to have originated as a mistranscription of wook the Tamil language root word for the alloy is urukku 16 Another which theory says that the word is a variation of uchcha or ucha dubious discuss superior According to one theory the word ukku is based on the meaning melt dissolve Other Dravidian languages have similar sounding words for steel ukku in Kannada 17 18 and Telugu and urukku in Malayalam When Benjamin Heyne inspected the Indian steel in Ceded Districts and other Kannada speaking areas he was informed that the steel was ucha kabbina superior iron also known as ukku tundu in Mysore 19 20 Legends of wootz steel and Damascus swords aroused the curiosity of the European scientific community from the 17th to the 19th century The use of high carbon alloys was little known in Europe 21 previously and thus the research into wootz steel played an important role in the development of modern English French and Russian metallurgy 22 In 1790 samples of wootz steel were received by Sir Joseph Banks president of the British Royal Society sent by Helenus Scott These samples were subjected to scientific examination and analysis by several experts 23 24 25 Specimens of daggers and other weapons were sent by the Rajas of India to the Great Exhibition in London in 1851 and 1862 International Exhibition Though the arms of the swords were beautifully decorated and jeweled they were most highly prized for the quality of their steel The swords of the Sikhs were said to bear bending and crumpling and yet be fine and sharp 9 Characteristics editWootz is characterized by a pattern caused by bands of clustered Fe3 C particles made by melting of low levels of carbide forming elements 26 Wootz contains greater carbonaceous matter than common qualities of cast steel citation needed The distinct patterns of Wootz steel that can be made through forging are wave ladder and rose patterns with finely spaced bands However with hammering dyeing and etching further customized patterns were made 27 The presence of cementite nanowires and carbon nanotubes has been identified by Peter Pepler of TU Dresden in the microstructure of wootz steel 28 There is a possibility of an abundance of ultrahard metallic carbides in the steel matrix precipitating out in bands Wootz swords were renowned for their sharpness and toughness 29 Composition edit T H Henry analyzed and recorded the composition of wootz steel samples provided by the Royal School of Mines Recording Carbon Combined 1 34 Carbon Uncombined 0 31 Sulfur 0 17 Silicon 0 04 Arsenic 0 03 Wootz steel was analyzed by Michael Faraday and recorded to contain 0 01 0 07 aluminium Faraday Messrs et al and Stodart hypothesized that aluminium was needed in the steel and was important in forming the excellent properties of wootz steel However T H Henry deduced that presence of aluminium in the Wootz used by these studies was due to slag forming as silicates Percy later reiterated that the quality of wootz steel does not depend on the presence of aluminium 30 Reproduction research editWootz steel has been reproduced and studied in depth by the Royal School of Mines 31 Dr Pearson was the first to chemically examine wootz in 1795 and he published his contributions to the Philosophical Transactions of the Royal Society 32 Russian metallurgist Pavel Petrovich Anosov see Bulat steel was almost able to reproduce ancient Wootz steel with nearly all of its properties and the steel he created was very similar to traditional Wootz He documented four different methods of producing Wootz steel that exhibited traditional patterns He died before he could fully document and publish his research Oleg Sherby and Jeff Wadsworth and Lawrence Livermore National Laboratory have all done research attempting to create steels with characteristics similar to Wootz but without success J D Verhoeven and Alfred Pendray reconstructed methods of production proved the role of impurities of ore in the pattern creation and reproduced Wootz steel with patterns microscopically and visually identical to one of the ancient blade patterns Reibold et al s analyses spoke of the presence of carbon nanotubes enclosing nanowires of cementite with the trace elements impurities of vanadium molybdenum chromium etc contributing to their creation in cycles of heating cooling forging This resulted in a hard high carbon steel that remained malleable 33 There are smiths who are now consistently producing Wootz steel blades visually identical to the old patterns 34 Steel manufactured in Kutch particularly enjoyed a widespread reputation similar to those manufactured at Glasgow and Sheffield 9 Wootz was made over nearly a 2 000 year period the oldest sword samples date to around 200 AD and the methods of production of ingots the ingredients and the methods of forging varied from one area to the next Some Wootz blades displayed a pattern while some did not Heat treating was quite different from forging and there were many different patterns which were created by the various smiths who spanned from China to Scandinavia citation needed See also editToledo steel Damascus steel Noric steel Bulat steel Tamahagane steel Ferrous metallurgy Iron pillar of Delhi Pattern weldingReferences edit a b J S Park K Rajan R Ramesh 2020 High carbon steel and ancient sword making as observed in a double edged sword from an Iron Age megalithic burial in Tamil Nadu India Archaeometry 62 68 80 doi 10 1111 arcm 12503 Srinivasan Sharada 15 November 1994 Wootz crucible steel a newly discovered production site in South India Papers from the Institute of Archaeology 5 49 59 doi 10 5334 pia 60 Wijepala W M T B Young Sansfica M Ishiga Hiroaki 1 April 2022 Reading the archaeometallurgical findings of Yodhawewa site Sri Lanka contextualizing with South Asian metal history Asian Archaeology 5 1 21 39 doi 10 1007 s41826 022 00046 0 ISSN 2520 8101 S2CID 247355036 Coghlan Herbert Henery 1977 Notes on prehistoric and early iron in the Old World 2nd ed Pitt Rivers Museum pp 99 100 Sasisekharan B 1999 Technology of Iron and Steel in Kodumanal PDF Indian Journal of History of Science 34 4 Archived from the original PDF on 24 July 2015 a b Davidson Hilda Roderick Ellis 1998 The Sword in Anglo Saxon England Its Archaeology and Literature Boydell amp Brewer p 20 ISBN 978 0 85115 716 0 Burton Sir Richard Francis 1884 The Book of the Sword London Chatto amp Windus p 111 Needham Joseph 1 April 1971 Science and Civilisation in China Volume 4 Physics and Physical Technology Cambridge University Press p 282 ISBN 978 0 52107 060 7 a b c d e Manning Charlotte Speir Ancient and Medieval India Vol 2 p 365 ISBN 978 0 543 92943 3 Wijepala W M T B Young Sansfica M Ishiga Hiroaki 1 April 2022 Reading the archaeometallurgical findings of Yodhawewa site Sri Lanka contextualizing with South Asian metal history Asian Archaeology 5 1 21 39 doi 10 1007 s41826 022 00046 0 ISSN 2520 8101 S2CID 247355036 Hobbies April 1963 Vol 68 No 5 p 45 Chicago Lightner Publishing Company Mahathevan Iravatham 24 June 2010 An epigraphic perspective on the antiquity of Tamil The Hindu The Hindu Group Retrieved 31 October 2010 Ragupathy P 28 June 2010 Tissamaharama potsherd evidences ordinary early Tamils among population Tamilnet Retrieved 31 October 2010 Dinithi PDF Sri Lanka Archaeology 1 4 February 2012 permanent dead link a b Srinivasan Sharada Ranganathan Srinivasa 2004 India s Legendary Wootz Steel An Advanced Material of the Ancient World Iron amp Steel Heritage of India 69 82 OCLC 82439861 Pande Girija af Geijerstam Jan 2002 Tradition and innovation in the history of iron making an Indo European perspective Pahar Parikarma p 45 ISBN 978 81 86246 19 1 Narasimha Roddam Srinivasan J Biswas S K 2003 The Dynamics of Technology Creation and Diffusion of Skills and Knowledge SAGE Publications p 135 ISBN 978 0 7619 9670 5 Michael Faraday as quoted by Day Peter 1 January 1999 The Philosopher s Tree Bristol UK Institute of Physics Publishing p 108 ISBN 978 0 7503 0571 6 Balfour Edward 1885 The Cyclopaedia of India and of Eastern and Southern Asia Commercial Industrial and Scientific Products of the Mineral Vegetable and Animal Kingdoms Useful Arts and Manufactures Bernard Quaritch p 1092 Jeans James Stephen 1880 Steel Its History Manufacture Properties and Uses E amp F N Spon p 294 Godfrey Evelyne van Nie Matthijs 2004 A Germanic ultrahigh carbon steel punch of the Late Roman Iron Age PDF Journal of Archaeological Science 31 8 1117 25 Bibcode 2004JArSc 31 1117G doi 10 1016 j jas 2004 02 002 Paul Rincon 12 May 2004 Iron Age tool marks move to steel BBC News Smith Cyril Stanley 2012 A History of Metallography The Development of Ideas on the Structure of Metals Before 1890 Literary Licensing ISBN 978 1 258 47336 5 Pearson George 1 January 1795 Experiments and Observations to Investigate the Nature of a Kind of Steel Manufactured at Bombay and There Called Wootz With Remarks on the Properties and Composition of the Different States of Iron Philosophical Transactions of the Royal Society of London Royal Society of London 85 322 346 doi 10 1098 rstl 1795 0020 JSTOR 106960 Mushet D 1 January 1805 Experiments on Wootz Philosophical Transactions of the Royal Society of London 95 163 175 doi 10 1098 rstl 1805 0010 JSTOR 107164 S2CID 115267901 Hadfield Robert 1932 A Research on Faraday s Steel and Alloys Philosophical Transactions of the Royal Society of London 230 681 693 221 292 Bibcode 1932RSPTA 230 221H doi 10 1098 rsta 1932 0007 JSTOR 91231 Verhoeven Pendray amp Dauksch 1998 Durand Charre Madeleine 2004 Microstructure of Steels and Cast Irons Springer ISBN 978 3 540 20963 8 Sanderson Katharine 15 November 2006 Sharpest cut from nanotube sword Nature doi 10 1038 news061113 11 S2CID 136774602 What is Wootz steel noblie eu Percy John 1864 Metallurgy The Art of Extracting Metals from Their Ores and Adapting Them to Various Purposes of Manufacture J Murray p 183 Ure Andrew 1821 A Dictionary of Chemistry On the Basis of Mr Nicholson s in which the Principles of the Science are Investigated Anew and Its Applications to the Phenomena of Nature Medicine Mineralogy Agriculture and Manufactures Detailed Robert Desilver p 45 Neogi Panchanan 1914 Iron in ancient India Indian Association for the Cultivation of Science Reibold Marianne Paufler Peter Levin Aleksandr A Kochmann Werner Patzke Nora Meyer Dirk C 2009 Discovery of Nanotubes in Ancient Damascus Steel Springer Proceedings in Physics Vol 127 Springer pp 305 310 Bibcode 2009penm book 305R doi 10 1007 978 3 540 88201 5 35 ISBN 978 3 540 88200 8 a href Template Cite book html title Template Cite book cite book a work ignored help Sherby Oleg Wadsworth Jeffrey 23 November 2001 Ancient blacksmiths the Iron Age Damascus steels and modem metallurgy Journal of Materials Processing Technology 117 3 347 353 doi 10 1016 S0924 0136 01 00794 4 Further reading editSrinivasan Sharada 1994 Wootz crucible steel a newly discovered production site in South India Papers from the Institute of Archaeology 5 49 59 doi 10 5334 pia 60 Srinivasan S Griffiths D South Indian wootz evidence for high carbon steel from crucibles from a newly identified site and preliminary comparisons with related finds Material Issues in Art and Archaeology 462 Hansson Staffan 2002 Den skapande manniskan The creative mind in Swedish Lund Sweden Studentlitteratur AB p 81 ISBN 978 9 14402 148 5 urukku from the Tamil Lexicon University of Madras Special Issue History and Characteristics of Wootz Steel in India and Abroad Indian Journal of History of Science 42 3 September 2007 Srinivasan Sharada Ranganathan Srinivasan 2004 India s Legendary Wootz Steel an advanced material of the ancient world Bangalore National Institute of Advanced Studies and Indian Institute of Science Verhoeven J D January 2001 The Mystery of Damascus Blades Scientific American 284 1 74 79 Bibcode 2001SciAm 284a 74V doi 10 1038 scientificamerican0101 74 JSTOR 26059015 PMID 11132427 External links editVerhoeven J D Pendray A H Dauksch W E 1998 The key role of impurities in ancient Damascus steel blades JOM 50 9 58 64 Bibcode 1998JOM 50i 58V doi 10 1007 s11837 998 0419 y S2CID 135854276 Verhoeven J D Pendray A H Dauksch W E September 2004 The continuing study of damascus steel Bars from the alwar armory JOM 56 9 17 20 Bibcode 2004JOM 56i 17V doi 10 1007 s11837 004 0193 4 S2CID 137555792 Verhoeven J D 2007 Pattern Formation in Wootz Damascus Steel Swords and Blades PDF Indian Journal of History of Science 42 4 559 574 Wootz Militaria Archived at Ghostarchive and the Wayback Machine Provos Niels 3 May 2013 Wootz Ep 4 Making Wootz Steel YouTube Archived at Ghostarchive and the Wayback Machine Loades Mike Pendray Al 21 November 2017 The Secrets of Wootz Damascus Steel YouTube US 5185044 Verhoeven J D amp Pendray A H Method of making Damascus blades published 9 February 1993 Retrieved from https en wikipedia org w index php title Wootz steel amp oldid 1198372577, wikipedia, wiki, book, books, library,

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