基于Mindlin第二梯度模型的Green函数和Eshelby张量——圆柱包含情况的显式研究

IF 1 Q4 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS Journal of Multiscale Modelling Pub Date : 2019-06-13 DOI:10.1142/S1756973718500075
A. Selmi
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引用次数: 1

摘要

基于包含两个长度尺度参数的Mindlin第二梯度模型,导出了任意形状包含的Green函数、Eshelby张量和Eshelby类张量。证明了Eshelby张量由两部分组成:经典的Eshelby张量器和包含长度尺度参数的梯度部分,这使得能够解释尺寸效应。当不考虑应变梯度时,所获得的格林函数和Eshelby张量简化为基于经典弹性的类似函数。对于圆柱形夹杂情况,明确地获得了夹杂内外的Eshelby张量、梯度部分的体积平均值和类Eshelby张量器。与经典的Eshelby张量不同,结果表明,新的Eshel比张量的分量随着位置和包含维度的变化而变化。结果表明,梯度部分的贡献不应被忽视。
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Green’s Function and Eshelby’s Tensor Based on Mindlin’s 2nd Gradient Model: An Explicit Study of Cylindrical Inclusion Case
Based on Mindlin’s 2nd gradient model that involves two length-scale parameters, Green’s function, Eshelby tensor and Eshelby-like tensor for an inclusion of arbitrary shape are derived. It is proved that the Eshelby tensor consists of two parts: the classical Eshelby tensor and a gradient part including the length-scale parameters, which enable the interpretation of the size effect. When the strain gradient is not taken into account, the obtained Green’s function and Eshelby tensor reduce to its analogue based on the classical elasticity. For the cylindrical inclusion case, the Eshelby tensor in and outside the inclusion, the volume average of the gradient part and the Eshelby-like tensor are explicitly obtained. Unlike the classical Eshelby tensor, the results show that the components of the new Eshelby tensor vary with the position and the inclusion dimensions. It is demonstrated that the contribution of the gradient part should not be neglected.
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来源期刊
Journal of Multiscale Modelling
Journal of Multiscale Modelling MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-
CiteScore
2.70
自引率
0.00%
发文量
9
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