A dislocation-based multi-rate single crystal plasticity model

被引：108

作者：

Hansen, B. L. ^{[1
]}

Beyerlein, I. J. ^{[1
]}

Bronkhorst, C. A. ^{[1
]}

Cerreta, E. K. ^{[1
]}

Dennis-Koller, D. ^{[1
]}

机构：

[1] Los Alamos Natl Lab, Los Alamos, NM 87545 USA

来源：

INTERNATIONAL JOURNAL OF PLASTICITY | 2013年 / 44卷

关键词：

Dislocations; Constitutive behavior; Crystal plasticity; Finite strain; Rate-dependent material; PERSISTENT SLIP BANDS; STRAIN-RATE HISTORY; CONSTITUTIVE MODEL; SUBSTRUCTURE EVOLUTION; SHOCK COMPRESSION; FATIGUED METALS; WALL STRUCTURE; DEFORMATION; TEMPERATURE; DENSITY;

D O I：

10.1016/j.ijplas.2012.12.006

中图分类号：

TH [机械、仪表工业];

学科分类号：

0802 ;

摘要：

The goal of this work is to formulate a constitutive model for the deformation of metallic single crystals over a wide range of strain rates, which is integral to computing reliable stress states of metallic polycrystals under shock loading. An elastic-viscoplastic, slip-based single crystal model that accounts for crystallographic orientation, temperature, and strain rate dependence has been formulated based on dislocation dynamics simulations and existing experimental data. The plastic model transitions from the low-rate, thermally-activated regime, to the high-rate, drag-dominated regime, by use of a distribution of dislocation velocities including kinetic effects. It has been compared favorably with experimental and computational results of copper. The transition to drag-dominated dislocation motion is predicted rather than empirically fit to experimental data. Published by Elsevier Ltd.

引用

页码：129 / 146

页数：18

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