Hostname: page-component-78c5997874-s2hrs Total loading time: 0 Render date: 2024-11-17T23:17:29.976Z Has data issue: false hasContentIssue false
  • English
  • Français

Finite Element Simulations of the Deformation of BCC Aggregates Using a Crystal Plasticity Model - Local Orientation Effects

Published online by Cambridge University Press:  10 February 2011

D. Arizmendi  and
J. L. Raphanel
D. Arizmendi
Affiliation:
LPMTM-CNRS, Université Paris Nord, 93430 Villetaneuse, France
J. L. Raphanel
Affiliation:
LMS-CNRS, Ecole polytechnique, 91128 Palaiseau Cedex, France. raphanel@lms.polytechnique.fr
Get access

Abstract

One has simulated by a finite element computation, the tensile plastic deformation of bcc aggregates with the same initial crystallographic texture but a different spatial distribution of orientations. The computations show fairly large differences between the simulations in terms of axial strain fields: one aggregate presents an homogeneous field, while another one localizes the strain in a narrow band. This “macroscopic effect” is then analyzed at the smaller scale of the crystallite by comparing local re-orientations, glide activity and stress levels. The influence of neighboring grains and of the “local”texture is thus shown. This is an effect that polycrystalline models (Taylor or self-consistent models) cannot account for.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 578: Symposia A/C – Multiscale Phenomena in Materials - Experiments in Modeling , 1999 , 27
Copyright
Copyright © Materials Research Society 2000

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

REFERENCES

[1] Rey, C., Mussot, P., and Zaoui, A.. pages 867874. Trans. Japan Inst. of Metals, 1986.Google Scholar
[2] Delaire, F., Raphanel, J.R., and Rey, C.. Acta Materialia, to be published, 2000.Google Scholar
[3] Becker, R. and Panchanadeeswaran, S.. Acta Metall. et Mat., 43 No7:27012719, 1995.Google Scholar
[4] Spitzig, W. and Keh, A. S.. Acta Metallurgica, 18:611622, 1970.Google Scholar
[5] Raphanel, J. L., Teodosiu, C., and Tabourot, L.. In Teodosiu, C., Raphanel, J.L., and Sidoroff, F., editors, Large Plastic Deformations : Fundamental Aspects and Applications to Metal Forming, pages 153168. A.A. Balkema, 1993.Google Scholar
[6] Taylor, G. I.. Proceedings of the Royal Society of London, A118:1-, 1928.Google Scholar
[7] Christian, J. W.. Metallurgical Transactions, 14A:12371256, 1983.Google Scholar
[8] Mecking, H. and Kocks, U.F.. Acta Metallurgica, 29:18651875, 1981.Google Scholar
[9] Tabourot, L., Fivel, M., and Rauch, E.. Materials Sci. and Eng., A234–236:639642, 1997.Google Scholar
[10] Tabourot, L., Fivel, M., and Rauch, E.. pages 511516. Risø National Laboratory, Roskilde, Denmark, 1998.Google Scholar
[11] Franciosi, P.. Acta Metallurgica, 31:13311342, 1983.Google Scholar
[12] Franciosi, P.. Acta Metallurgica, 33:16011612, 1985.Google Scholar
[13] Kröner, E. and Teodosiu, C.. In Sawczuk, A., editor, Problems of plasticity, pages 4982, Warsaw, 1972. Noordhoff Insternational Publishing, Leyden.Google Scholar
[14] Teodosiu, C.. volume 2, pages 837876. NBS Spec. Pub. 317, 1970.Google Scholar
[15] Arizmendi, D.. PhD thesis, Universite Paris Nord, 93430 Villetaneuse, FRANCE, 1999.Google Scholar