Hostname: page-component-cd9895bd7-gvvz8 Total loading time: 0 Render date: 2024-12-28T00:35:18.205Z Has data issue: false hasContentIssue false

Les aciers damassés décryptés

Published online by Cambridge University Press:  24 June 2010

M. Durand-Charre*
Affiliation:
Simap, 1130 rue de la Piscine, BP 75, 38402 St-Martin-d'Heres Cedex, France
F. Roussel-Dherbey
Affiliation:
CMTC, 1260 rue de la Piscine, BP 75, 38402 St-Martin-d'Heres Cedex, France
S. Coindeau
Affiliation:
Simap, 1130 rue de la Piscine, BP 75, 38402 St-Martin-d'Heres Cedex, France CMTC, 1260 rue de la Piscine, BP 75, 38402 St-Martin-d'Heres Cedex, France
*
a retraitée Simap, e-mail : mdc.damas@gmail.com
Get access

Abstract

Deux grandes classes de procédés ont été employées par les forgerons d’aciers dès lepremier millénaire av. J.-C. A partir de deux exemples typiques nous montrons commentl’interprétation des examens métallographiques avec des outils modernes tels que MEB etMEBFEG permet de reconstituer ces techniques. Un échantillon de l’époque mérovingienneillustre la fabrication de lames figurées par multiples opérations desoudage puis forgeage. Un échantillon de wootz prélevé dans une lame du XVIIIesiècle illustre le forgeage du fameux acier fondu de Damas.

Type
Research Article
Copyright
© EDP Sciences, 2010

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.)

References

V.F. Buchwald, Iron and steel in ancient time, Pub. The Royal Academy of Science and Letters, 2005
M. Durand-Charre, La microstructure des aciers et des fontes, SIRPE, Paris, 2003
M. Durand-Charre, Les aciers damassés, Du fer primitif aux aciers modernes, Les presses de l’école des mines de Paris, 2007
P.A. Dowben, A. Miller, Surface Segregation phenomena, Pub. CRC Press, Syracuse University, 1990
L. Priester, Les joints de grains, de la théorie à l’ingénierie, Pub. EDP Sciences, 2006
C.L. Briant, Impurities in Engineering Materials, Pub. CRC Press, 1999
Briant, C.L., On the Chemistry of Grain Boundary Segregation and Grain Boundary Fracture, Metall. Trans., 21A (1990), 2339 Google Scholar
Cowan, J.R., Evans, H.E., Jones, R.B., Bowen, P., The grain-boundary segregation of phosphorus and carbon in the Fe-C-P alloy during cooling, Acta Mater., 46 (1998), 6565-6574 CrossRefGoogle Scholar
Gouthama, G., Balasubramaniam, R., Alloy design of ductile phosphoric iron, Ideas from archaeometallurgy, Bull. Mater. Sci., 26 (2003), 483-491 CrossRefGoogle Scholar
S. Srinivasan, S. Ranganathan, India’s legendary Wootz Steel, An advanced material of the ancient world, National institute of advanced studies, Indian Institute of Science, Bangalore, 2004
S. Srinivasan, S. Ranganathan, Wootz steel: an advanced material of the ancient world, Iron and steel Heritage of India, edited by S. Ranganathan, Indian Institute of Materials and Tata Steel, Jamshedpur 1997
A. Feuerbach, Crucible Steel in Central Asia, Production, Use, and Origins, PHD University of London, 1998
A. Feuerbach, Crucible Steel in Central Asia, Production, Use, and Origins, PHD University of London, 1998
Zschokke, B., Du Damassé et des lames de damas, Rev. Mét.Part I, 21 (1924), 635-669 Google Scholar
Wadworth, J., Sherby, O., On the Bulat-Damascus Steels Revisited, Progress Materials Science, 25 (1980), 35-68 CrossRefGoogle Scholar
Sherby, O.D., Wadsworth, J., Damascus Steel Scientific American, 252 (1985), 112-120 Google Scholar
Verhoeven, D., Pendray, A.H., Studies of Damascus Steel Blades, Part I, Experiments on Reconstructed Blades, Mater. Char. 30 (1993), 175-186 CrossRefGoogle Scholar
Verhoeven, J.D., Pendray, A.H., Berge, P.M., Studies of Damascus Steel Blades, Part II, Destruction and Reformation of the pattern, Mater. Char. 30 (1993), 187-200 CrossRefGoogle Scholar
J.D. Verhoeven, A.H. Pendray, W.E. Dauksch, The Key Role of Impurities in Ancient Damascus Steel Blades, JOM, Sept. 1998, 58-64
Perttula, J., Reproduced wootz Damascus steel, Scandinavian Journal of Metallurgy, 30 (2001) 65-68 CrossRefGoogle Scholar
Verhoeven, J.D., Clark, H.F, Carbon Diffusion Between the Layers in Modern Pattern-Welded Damascus blades, 41 (1998) 183-191 Google Scholar
A. France-Lanord, Ancient Metals, Structure and Characteristics, Technical Cards, Roma, ICCROM, 1980
Verhoeven, J.D., Gibson, E.D., The Divorced Eutectoid Transformation in Steel, Metall. and Mater. Trans. 29A (1998) 1181-1189 CrossRefGoogle Scholar
M. Reibold, P. Paufler, A.A. Levin, W. Kochmann, N. Pätzke, D.C. Meyer, Materials, Carbon nanotubes in an ancient Damascus sabre, Nature 444 (2006), p. 286
Kochmann, W., Reibold, M., Goldberg, R., Hauffe, W., Levin, A.A., Meyer, D.C., Stephan, T., Müller, H., Belger, A., Paufler, P., Nanowires in ancient Damascus steel, Journal of Alloys and Compounds 372 (2004) L15L19, Letter Google Scholar
Levin, A.A., Meyer, D.C., Reibold, M., Kochmann, W., Pätzke, N., Paufler, P., Microstructure of a genuine Damascus sabre, Cryst. Res. Techno. 40 (2005) 905-916 CrossRefGoogle Scholar
J.-J. Perret, Maître coutelier de Paris, Les arts du coutelier et du chirurgien, M DCC LXXI (1771)