Etude de l'endommagement pendant la mise en forme à froid de tôles d'aluminium
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Références Bibliographiques AMB87 AMBROISE M. H., BRETHEAU T., ZAOUI A., Crack initiation from the interface of superficial inclusions, Mechanical behaviour of materials 1987 pp. 169-176. ARG75a ARGON A. S., IM J. , SAFOGLU R. Cavity formation from inclusions in ductile fracture. Metal Trans., 1975, vol. 6A, pp. 825-837. ARG75b ARGON A. S., IM J. Separation of second phase particles in spheroidized 1045 steel, Cu-0.6Pct Cr alloy, and maraging steel in plastic straining. Metal trans., 1975, vol. 6A, p 839-851 ASH88 M.F. ASHBY, L.J. GIBSON, Cellular Solids––Structure and Properties, Pergamon Press, Oxford (1988). ATT68 ATTIX F. H. R. (Ed), ROESCH W. C (Ed). Radiation Dosimetry. Vol. I : Fundamentals. New York : Academic Press, 1968. 111 p. BAB02 BABOUT L. Etude par tomographie X et modélisation de l’endommagement de matériaux métalliques modèles. Thèse de l’INSA de Lyon. 2002, 204p BAK97 BAKER,-I.; MUNROE,-P.-R., Mechanical properties of FeAl, International-Materials-Reviews. 1997; 42(5): 181-208. BAL03 BALDACCI A. Rupture des particules intermétalliques durant le laminage à chaud d’un alliage d’aluminium 5182. Thèse de l’ENSM-SE 2003, 281p BAL98 R.G. BALIGIDAD, A. RADHAKRISHNA, U. PRAKASH, Mechanical properties of high carbon Fe3 Al-based intermetallic alloys, Materials Science and Engineering A257 1998 pp. 235–239 BAN01 D. BANABIC, E. DANNENMANN, Prediction of the influence of yield locus on the limit strains in sheet metals, Journal of ...
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| Publié par | Soof |
| Nombre de lectures | 107 |
| Langue | English |
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Références Bibliographiques AMB87 AMBROISE M. H., BRETHEAU T., ZAOUI A.,Crack initiation from the interface of superficial inclusions,Mechanical behaviour of materials 1987 pp. 169-176. ARG75a ARGON A. S., IM J. , SAFOGLU R.Cavity formation from inclusions in ductile racture. Metal Trans., 1975, vol. 6A, pp. 825-837. ARG75b ARGON A. S., IM J.Separation of second phase particles in spheroidized 1045 steel, Cu-0.6Pct Cr alloy, and maraging steel in plastic straining. Metal trans., 1975, vol. 6A, p 839-851 ASH88 M.F. ASHBY, L.J. GIBSON,Cellular SolidsStructure and Propertie,sPergamon Press, Oxford (1988). ATT68 ATTIX F. H. R. (Ed), ROESCH W. C (Ed).Radiation Dosimetry. Vol. I : Fundamentals. New York : Academic Press, 1968. 111 p. BAB02 BABOUT L.Etude par tomographie X et modélisation de l’endommagement de matériaux métalliques modèles. Thèse de l’INSA de Lyon. 2002, 204p BAK97 BAKER,-I.; MUNROE,-P.-R.,Mechanical properties of FeAl, International-Materials-Reviews. 1997; 42(5): 181-208. BAL03 BALDACCI A.Rupture des particules intermétalliques durant le laminage à chaud d’un alliage d’aluminium 5182. Thèse de l’ENSM-SE 2003, 281p BAL98 R.G. BALIGIDAD, A. RADHAKRISHNA, U. PRAKASH,Mechanical properties of high carbon Fe3 Al-based intermetallic alloys, Materials Science and Engineering A257 1998 pp. 235239 BAN01 D. BANABIC, E. DANNENMANN,Prediction of the influence of yield locus on the limit strains in sheet metals, Journal of Materials Processing Technology, Volume 109, Issues 1-2, 1 February 2001, Pages 9-12 BAN96 BANABIC D.,Forming Limit Diagrams Predicted by Using the New Hill's Yield Criterion, ppNumisheet- International conference, 3, 1996, 240-245 BEC94 R.BECKER, O RICHMOND,ncorporation of microstructural geometry in material modelling Mater. Sci.eng.2 1994 pp. 439-454 BER01 BERVEILLER M., BRETHEAU T., FOUGERES R. et al,Rappels sur les mécanismes de la plasticité et de l'endommagement en Homogénéisation. In mécanique des matériaux 2. Comportements non linéaires et problèmes ouverts. Paris : Hermes Science Europe Ltd, 2001, pp. 203-249.12. BER81 BEREMIN F. M. Cavity formation from inclusions in ductile fracture of A508 steel. Metal. Trans A, 1981, vol. 12A, p 723-731. BOR96 M. BORNERT, C. STOLZ, A. ZAOUI representative pattern-, Morphologically based bounding in elasticity, Journal of the Mechanics and Physics of Solids, Volume 44, Issue 3, March 1996, Pages 307-331
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