Difference between revisions of "Damascus steel"

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[[File:Knife raindrops.jpg|thumb|modern Damascus blade, raindrop pattern<br>Photo credit: K.Holbert]]
 
== Description ==
 
== Description ==
  
A very strong, hand-wrought [[steel]] made in Near Eastern and Asian countries from approximately 900 to 1600 CE. Damascus steel was made from a heterogeneous metal mixture of [[iron]] and steel that was drawn out, folded over, and then welded many times. This sequence produced wavy patterns in the steel which were enhanced with acid etching. The hot metal mixture was also placed selectively in contact with organic materials to add carbon (up to 2%) to the alloy. Damascus steel was primarily used for sword blades.
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A very strong, hand-wrought [[steel]] made in Near Eastern and Asian countries from approximately 900 to 1600 CE. Damascus steel was primarily used for sword blades from ingots of Wootz steel either imported from Southern India or made in production centers in Sri Lanka, or Khorasan, Iran. The heterogeneous metal mixture of [[iron]] and steel that was drawn out, folded over, and then welded many times producing wavy patterns in the steel which were enhanced with acid etching, producing their distinctive patterns of banding and mottling reminiscent of flowing water, sometimes in a "ladder" or "rose" pattern. The blades were reputed to be tough, resistant to shattering, and capable of being honed to a sharp, resilient edge. Tales have indicated the blades could cut through a falling hair.  The original methods, techniques, and materials are thought to have been lost.
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However, due to extensive analysis and experimentation, several individuals in modern times have successfully produced several pattern forming hypereutectoid steel blades with visible carbide banding on the surface, consistent with original Damascus Steel. One method the "Damascus" surface pattern used a steel melt comprising about 1.0 to about 2.0 weight % carbon is solidified to form an ingot, the ingot is heated between about 1100 DEG to about 1299 DEG C. for a time at temperature of about 5 to about 12 hours to form a malleable metal.  Multiple heat, drawing and folding techniques have produced multiple patterns such as waves, droplets, and feathers.
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[[File:Knife waves.jpg|thumb|modern Damascus blade, wave pattern<br>Photo credit: M.Derrick]]
  
 
== Synonyms and Related Terms ==
 
== Synonyms and Related Terms ==
  
 
damask steel; damasked steel; Damaszenerstahl (Deut.); acero de damasco (Esp.); Damast staal (Ned.)
 
damask steel; damasked steel; Damaszenerstahl (Deut.); acero de damasco (Esp.); Damast staal (Ned.)
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Wootz (Indian), Pulad (Persian), Fuladh (Arabic), Bulat (Russian) and Bintie (Chinese) are all names for historical ultra-high carbon crucible steel typified by carbide segregation.
  
 
==Resources and Citations==
 
==Resources and Citations==
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* Kyle Royer knives: [https://www.youtube.com/c/KyleRoyerKnives/videos Youtube videos]
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* Pacey, Arnold, 'Technology in World Civilization: A Thousand-year History', MIT Press. p. 80. 1991.
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* Williams, Alan R., 'The Sword and the Crucible: A History of the Metallurgy of European Swords Up to the 16th Century', ''The Sword and the Crucible'', Brill. p. 30. 2012.
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* Bronson, Bennet. 'The making and selling of wootz, a crucible steel of India'. ''Archeomaterials'', 1:1, 1986. 
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* Figiel, Leo S.  ''On Damascus Steel''. Atlantis Arts Press. pp. 10–11. 1991.
  
 
* David C. Scott, ''Metallography and Microstructure of Ancient and Historic Metals'', The Getty Conservation Institute, Los Angeles, 1991
 
* David C. Scott, ''Metallography and Microstructure of Ancient and Historic Metals'', The Getty Conservation Institute, Los Angeles, 1991

Latest revision as of 13:24, 19 May 2022

modern Damascus blade, raindrop pattern
Photo credit: K.Holbert

Description

A very strong, hand-wrought Steel made in Near Eastern and Asian countries from approximately 900 to 1600 CE. Damascus steel was primarily used for sword blades from ingots of Wootz steel either imported from Southern India or made in production centers in Sri Lanka, or Khorasan, Iran. The heterogeneous metal mixture of Iron and steel that was drawn out, folded over, and then welded many times producing wavy patterns in the steel which were enhanced with acid etching, producing their distinctive patterns of banding and mottling reminiscent of flowing water, sometimes in a "ladder" or "rose" pattern. The blades were reputed to be tough, resistant to shattering, and capable of being honed to a sharp, resilient edge. Tales have indicated the blades could cut through a falling hair. The original methods, techniques, and materials are thought to have been lost.

However, due to extensive analysis and experimentation, several individuals in modern times have successfully produced several pattern forming hypereutectoid steel blades with visible carbide banding on the surface, consistent with original Damascus Steel. One method the "Damascus" surface pattern used a steel melt comprising about 1.0 to about 2.0 weight % carbon is solidified to form an ingot, the ingot is heated between about 1100 DEG to about 1299 DEG C. for a time at temperature of about 5 to about 12 hours to form a malleable metal. Multiple heat, drawing and folding techniques have produced multiple patterns such as waves, droplets, and feathers.

modern Damascus blade, wave pattern
Photo credit: M.Derrick

Synonyms and Related Terms

damask steel; damasked steel; Damaszenerstahl (Deut.); acero de damasco (Esp.); Damast staal (Ned.)

Wootz (Indian), Pulad (Persian), Fuladh (Arabic), Bulat (Russian) and Bintie (Chinese) are all names for historical ultra-high carbon crucible steel typified by carbide segregation.

Resources and Citations

  • Pacey, Arnold, 'Technology in World Civilization: A Thousand-year History', MIT Press. p. 80. 1991.
  • Williams, Alan R., 'The Sword and the Crucible: A History of the Metallurgy of European Swords Up to the 16th Century', The Sword and the Crucible, Brill. p. 30. 2012.
  • Bronson, Bennet. 'The making and selling of wootz, a crucible steel of India'. Archeomaterials, 1:1, 1986.
  • Figiel, Leo S. On Damascus Steel. Atlantis Arts Press. pp. 10–11. 1991.
  • David C. Scott, Metallography and Microstructure of Ancient and Historic Metals, The Getty Conservation Institute, Los Angeles, 1991
  • Random House, Webster's Encyclopedic Unabridged Dictionary of the English Language, Grammercy Book, New York, 1997
  • The American Heritage Dictionary or Encarta, via Microsoft Bookshelf 98, Microsoft Corp., 1998