Affiliation:
1. AGH University of Science and Technology
2. Université Paris 13
3. Ecole Nationale d’Ingénieurs de METZ
4. Université de Reims Champagne Ardenne
Abstract
The classical definition of lattice rotation leads in some cases to different textures than the definition based on the preservation of orientations of selected sample directions and/or planes. For example, if classical {111} slip is taken into account for f.c.c. materials, the former approach enables to predict both copper and brass types of rolling texture, while classical approach predicts only the first one. The analysis of rolling texture formation is done for two types of lattice rotation in function of grain-matrix interaction parameter used in a deformation model. Predicted textures and correlation factors estimating the similarity of predicted and experimental textures are presented.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Reference11 articles.
1. M. Berveiller, A. Zaoui, An Extension of the self-consistent scheme to plastically flowing polycrystals, J. Mech. Phys. Solids, 26 (1979) 325-344.
2. W.F. Hosford, On Orientation Changes Accompanying Slip and Twinning, Texture of Crystalline Solids, 2 (1977) 175-182.
3. T. Leffers and R.A. Lebensohn, Ambiguities in the calculation of lattice rotations for plane-strain deformation, Proc. of the 11th. Int. Conf. on Textures of Materials (ICOTOM-11), Z. Liang et al. eds., International Academic Publ., 1996, pp.307-314.
4. R.A. Lebensohn and T. Leffers, The rules for the lattice rotation accompanying slip as derived from a self consistent model, Textures and Microstructures, 31 (1999) 217-230.
5. K. Wierzbanowski, J. Jura, W.G. Haije, R.B. Helmholdt, FCC Rolling Texture Transitions in Relation to Constraint Relaxation, Cryst. Res. Technol., 27 (1992) 513- 522.
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