Gradient plasticity constitutive model reflecting the ultrafine micro-structure scale: the case of severely deformed copper

R. Lapovok; F.H. Dalla Torre; J. Sandlin; C.H.J. Davies; E.V. Pereloma; P.F. Thomson; Y. Estrin

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Gradient plasticity constitutive model reflecting the ultrafine micro-structure scale: the case of severely deformed copper

机译：反映超细微结构尺度的梯度塑性本构模型：严重变形铜的情况

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摘要

A further development of the mechanism-based strain gradient plasticity model well established in literature is reported. The major new element is the inclusion of the cell size effect in dislocation cell forming materials. It is based on a 'phase mixture' approach in which the dislocation cell interiors and dislocation cell walls are treated as separate 'phases'. The model was applied to indentation testing of copper severely pre-strained by equal channel angular pressing. The deformation behaviour and the intrinsic length scale parameter of the gradient plasticity model were related to the micro-structural characteristics, notably the dislocation cell size, resulting from the deformation history of the material.

机译：据报道，文献中已经建立了基于机理的应变梯度可塑性模型的进一步发展。主要的新元素是位错形成细胞的材料中包含了细胞尺寸效应。它基于“相混合”方法，其中位错单元内部和位错单元壁被视为单独的“相”。该模型被用于通过等通道角挤压严重预应变的铜的压痕测试。梯度可塑性模型的变形行为和固有长度尺度参数与材料的变形历史所导致的微观结构特征有关，特别是位错晶胞的大小。

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来源
《Journal of the Mechanics and Physics of Solids》 |2005年第4期|p.729-747|共19页
作者
R. Lapovok; F.H. Dalla Torre; J. Sandlin; C.H.J. Davies; E.V. Pereloma; P.F. Thomson; Y. Estrin;
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作者单位

School of Physics and Materials Engineering, Monash University, Clayton, Vic 3800, Australia;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类固体力学;
关键词
mechanism-based strain-gradient plasticity model; ultrafine grained copper; equal channel angular pressing; indentation;

机译：机理的应变梯度塑性模型;超细晶粒铜;等通道角挤压;压痕;

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Gradient plasticity constitutive model reflecting the ultrafine micro-structure scale: the case of severely deformed copper

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