# Micromechanics and theory of point defects in anisotropic elasticity:   Eshelby factor meets Eshelby tensor

**Authors:** Markus Lazar

arXiv: 1702.04981 · 2017-03-16

## TL;DR

This paper develops a comprehensive anisotropic elasticity framework for point defects, deriving key equations and solutions, and explores defect interactions, volume changes, and the Eshelby factor in anisotropic materials.

## Contribution

It introduces new solutions for anisotropic point defects using the Green tensor and relates the Eshelby factor to the Eshelby tensor in anisotropic elasticity.

## Key findings

- Derived key equations for anisotropic point defects.
-  Calculated interaction energies and torques between defects.
-  Expressed the Eshelby factor in terms of the Eshelby tensor.

## Abstract

The interaction of anisotropic point defects in anisotropic media is studied in the framework of anisotropic elasticity with eigendistortion. For this purpose key-equations and their solutions for anisotropic point defects in an anisotropic medium based on the anisotropic Green tensor are derived. The material force, interaction energy and torque between two point defects as well as between a point defect and a dislocation loop are given. We discuss so-called contact terms and point out similarities between elastic, electric, and magnetic dipoles. The plastic, the elastic and the total volume changes caused by an anisotropic point defect in an anisotropic material and the related Eshelby factor are determined. Thereby, the Eshelby factor is given in terms of the Eshelby tensor.

## Full text

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## Figures

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Source: https://tomesphere.com/paper/1702.04981