Title of article
A three-dimensional crystal plasticity model for duplex Ti–6Al–4V
Author/Authors
J.R. Mayeur، نويسنده , , D.L. McDowell، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
29
From page
1457
To page
1485
Abstract
A rate dependent crystal plasticity model for the α/β Ti–Al alloy Ti–6Al–4V with duplex microstructure is developed and presented herein. Duplex Ti–6Al–4V is a dual-phase alloy consisting of an hcp structured matrix primary α-phase and secondary lamellar α + β domains that are composed of alternating layers of secondary α laths and bcc structured residual β laths. The model accounts for distinct three-dimensional slip geometry for each phase, anisotropic and length scale dependent slip system strengths, the non-planar dislocation core structure of prismatic screw dislocations in the primary α-phase, and crystallographic texture. The model is implemented in the general purpose finite element code (ABAQUS, 2005. Ver 6.5, Hibbitt, Karlsson, and Sorensen, Inc., Pawtucket, RI) via a UMAT subroutine.
Keywords
B. Crystal plasticity , Polycrystalline material , C. Finite elements , A. Microstructures , Anisotropic material
Journal title
International Journal of Plasticity
Serial Year
2007
Journal title
International Journal of Plasticity
Record number
1257451
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