Bicrystal-Based Modeling of Plasticity in FCC Metals

B. J.  Lee; S.  Ahzi; D. M.  Parks

Source: Journal of Engineering Materials and Technology:;2002:;volume( 124 ):;issue: 001::page 27

Author:

B. J. Lee

S. Ahzi

D. M. Parks

DOI: 10.1115/1.1420196

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: In this paper, intermediate modeling of polycrystalline plasticity is proposed for rigid viscoplatic large deformations. This approach is based on the use of a bicrystal as the elementary local element representing the polycrystal. The local homogenization is obtained by considering the bicrystal volume-averaging and the jump conditions at the assumed planar interface between the two crystals. Two interaction laws based on Taylor and Sachs type assumptions are proposed. These bicrystal-based averaging schemes are different from the classical Taylor and Sachs models since they allow for stresses and strains to vary from one single crystal to the other. We simulate uniaxial tension and compression as well as plane strain compression tests. Results in terms of stress-strain curves are shown in comparison to those of the pure Taylor and Sachs models. We also show results for texture evolution and discuss their comparison with the experimental measurements.

keyword(s): Plasticity , Deformation , Crystals , Stress , Equilibrium (Physics) , Texture (Materials) , Modeling , Compression , Metals , Tension AND Plane strain ,

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Bicrystal-Based Modeling of Plasticity in FCC Metals

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contributor author	B. J. Lee
contributor author	S. Ahzi
contributor author	D. M. Parks
date accessioned	2017-05-09T00:07:38Z
date available	2017-05-09T00:07:38Z
date copyright	January, 2002
date issued	2002
identifier issn	0094-4289
identifier other	JEMTA8-27029#27_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/126888
description abstract	In this paper, intermediate modeling of polycrystalline plasticity is proposed for rigid viscoplatic large deformations. This approach is based on the use of a bicrystal as the elementary local element representing the polycrystal. The local homogenization is obtained by considering the bicrystal volume-averaging and the jump conditions at the assumed planar interface between the two crystals. Two interaction laws based on Taylor and Sachs type assumptions are proposed. These bicrystal-based averaging schemes are different from the classical Taylor and Sachs models since they allow for stresses and strains to vary from one single crystal to the other. We simulate uniaxial tension and compression as well as plane strain compression tests. Results in terms of stress-strain curves are shown in comparison to those of the pure Taylor and Sachs models. We also show results for texture evolution and discuss their comparison with the experimental measurements.
publisher	The American Society of Mechanical Engineers (ASME)
title	Bicrystal-Based Modeling of Plasticity in FCC Metals
type	Journal Paper
journal volume	124
journal issue	1
journal title	Journal of Engineering Materials and Technology
identifier doi	10.1115/1.1420196
journal fristpage	27
journal lastpage	40
identifier eissn	1528-8889
keywords	Plasticity
keywords	Deformation
keywords	Crystals
keywords	Stress
keywords	Equilibrium (Physics)
keywords	Texture (Materials)
keywords	Modeling
keywords	Compression
keywords	Metals
keywords	Tension AND Plane strain
tree	Journal of Engineering Materials and Technology:;2002:;volume( 124 ):;issue: 001
contenttype	Fulltext

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