1. Asymmetric Rolling Process Simulations by Dynamic Explicit Crystallographic Homogenized Finite Element Method.
- Author
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Nguyen Ngoc Tam, Nakamura, Yasunori, Terao, Toshihiro, Kuramae, Hiroyuki, Nakamachi, Eiji, Sakamoto, Hidetoshi, and Morimoto, Hideo
- Subjects
CRYSTALLOGRAPHY ,FINITE element method ,ALUMINUM alloys ,NUMERICAL analysis ,MECHANICAL properties of metals ,METALLURGY - Abstract
Recently, the asymmetric rolling (ASR) has been applied to the material processing of aluminum alloy sheet to control micro-crystal structure and texture in order to improve the mechanical properties. Previously, several studies aimed at high formability sheet generation have been carried out experimentally, but finite element simulations to predict the deformation induced texture evolution of the asymmetrically rolled sheet metals have not been investigated rigorously. In this study, crystallographic homogenized finite element (FE) codes are developed and applied to analyze the asymmetrical rolling processes. The textures of sheet metals were measured by electron back scattering diffraction (EBSD), and compared with FE simulations. The results from the dynamic explicit type Crystallographic homogenization FEM code shows that this type of simulation is a comprehensive tool to predict the plastic induced texture evolution. © 2007 American Institute of Physics [ABSTRACT FROM AUTHOR]
- Published
- 2007
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