A meso elastoplastic constitutive model for polycrystalline metals based on equivalent slip systems with latent hardening

A meso material model for polycrystalline metals is proposed, in which the tiny slip systems distributing randomly between crystal slices in micro-grains or on grain boundaries are replaced by macro equivalent slip systems determined by the work-conjugate principle. The elastoplastic constitutive eq...

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Veröffentlicht in:	Science China. Mathematics 1998-08, Vol.41 (8), p.887-896
Hauptverfasser:	Liang, Naigang, Liu, Honggiu, Wang, Ziqiang
Format:	Artikel
Sprache:	eng
Schlagworte:	Bauschinger effect Constitutive equations Constitutive models Constitutive relationships Elastoplasticity Equivalence Grain boundaries Hardening Material properties Mathematical models Numerical analysis Polycrystals Slip
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container_title	Science China. Mathematics
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creator	Liang, Naigang Liu, Honggiu Wang, Ziqiang
description	A meso material model for polycrystalline metals is proposed, in which the tiny slip systems distributing randomly between crystal slices in micro-grains or on grain boundaries are replaced by macro equivalent slip systems determined by the work-conjugate principle. The elastoplastic constitutive equation of this model is formulated for the active hardening, latent hardening and Bauschinger effect to predict macro elastoplastic stress-strain responses of polycrystalline metals under complex loading conditions. The influence of the material property parameters on size and shape of the subsequent yield surfaces is numerically investigated to demonstrate the fundamental features of the proposed material model. The derived constitutive equation is proved accurate and efficient in numerical analysis. Compared with the self-consistent theories with crystal grains as their basic components, the present theory is much simpler in mathematical treatment.
doi_str_mv	10.1007/BF02871672
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The elastoplastic constitutive equation of this model is formulated for the active hardening, latent hardening and Bauschinger effect to predict macro elastoplastic stress-strain responses of polycrystalline metals under complex loading conditions. The influence of the material property parameters on size and shape of the subsequent yield surfaces is numerically investigated to demonstrate the fundamental features of the proposed material model. The derived constitutive equation is proved accurate and efficient in numerical analysis. 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Mathematics</title><description>A meso material model for polycrystalline metals is proposed, in which the tiny slip systems distributing randomly between crystal slices in micro-grains or on grain boundaries are replaced by macro equivalent slip systems determined by the work-conjugate principle. The elastoplastic constitutive equation of this model is formulated for the active hardening, latent hardening and Bauschinger effect to predict macro elastoplastic stress-strain responses of polycrystalline metals under complex loading conditions. The influence of the material property parameters on size and shape of the subsequent yield surfaces is numerically investigated to demonstrate the fundamental features of the proposed material model. The derived constitutive equation is proved accurate and efficient in numerical analysis. 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subjects	Bauschinger effect Constitutive equations Constitutive models Constitutive relationships Elastoplasticity Equivalence Grain boundaries Hardening Material properties Mathematical models Numerical analysis Polycrystals Slip
title	A meso elastoplastic constitutive model for polycrystalline metals based on equivalent slip systems with latent hardening
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