Crystalline Plasticity Simulation Reproducing Mechanical Anisotropy Caused by Rolling-induced Microstructures
Author:
Affiliation:
1. Department of Finemechanics, School of Engineering, Tohoku University
Publisher
Society of Materials Science, Japan
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Link
https://www.jstage.jst.go.jp/article/jsms/72/11/72_774/_pdf
Reference23 articles.
1. 1) H. Miura, C. Watanabe, Y. Aoyagi, Y. Oba, M. Kobayashi and N. Yoshinaga, “Age-hardening mechanisms of heterogeneous-nanostructured sus316ln stainless steel fabricated by heavy cold rolling”, Materials Science and Engineering: A, No. 833, 142531 (2022).
2. 2) S. Roy, S.D. Singh, S. Suwas, S. Kumar and K. Chattopadhyay, “Microstructure and texture evolution during accumulative roll bonding of aluminium alloy AA5086”, Materials Science and Engineering A, Vol. 528, pp. 8469-8478 (2011).
3. 3) F. Barlat, J.C. Brem, J.W. Yoon, K. Chung, R.E. Dick, D.J. Lege, F. Pourboghrat, S.H. Choi and E. Chu, “Plane stress yield function for aluminum alloy sheets part I: theory”, International Journal of Plasticity, Vol. 19, pp. 1297-1319 (2003).
4. 4) H. Wang, M. Wan, X. Wu and Y. Yan, “The equivalent plastic strain-dependent yld2000-2d yield function and the experimental verification”, Computational Materials Science, Vol. 1, No. 47, pp. 12-22 (2009).
5. 5) D. Yanaga, T. Kuwabara, N. Uema and M. Asano, “Hydraulic bulge forming simulation of 6000 series aluminum alloy sheets using anisotropic yield functions and experimental validation. Journal of The Japan Institute of Light Metals, Vol. 1, No. 62, pp. 7-13 (2012).
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