A MODE-Ⅱ GRIFFITH CRACK IN DECAGONAL QUASICRYSTALS

Applied Mathematics and Mechanics (English Edition) ›› 2001, Vol. 22 ›› Issue (11): 1311-1317.

A MODE-Ⅱ GRIFFITH CRACK IN DECAGONAL QUASICRYSTALS

郭玉翠¹, 范天佑²

1. Basic Science Department, Beijing University of Post and Telecommunications, Beijing 100088, P.R.China;
2. Research Center of Material Science, Beijing Institute of Technology, Beijing 100081, P.R.China

收稿日期:1999-02-08 修回日期:2001-07-13 出版日期:2001-11-18 发布日期:2001-11-18
通讯作者: WANG Yin-bong

A MODE-Ⅱ GRIFFITH CRACK IN DECAGONAL QUASICRYSTALS

GUO Yu-cui¹, FAN Tian-you ²

1. Basic Science Department, Beijing University of Post and Telecommunications, Beijing 100088, P.R.China;
2. Research Center of Material Science, Beijing Institute of Technology, Beijing 100081, P.R.China

Received:1999-02-08 Revised:2001-07-13 Online:2001-11-18 Published:2001-11-18

摘要/Abstract

摘要： By using the method of stress functions, the problem of mode-Ⅱ Griffith crack in decagonal quasicrystals was solved. First, the crack problem of two-dimensional quasi-crystals was decomposed into a plane strain state problem superposed on anti-plane state problem and secondly, by introducing stress functions, the 18 basic elasticity equations on coupling phonon-phason field of decagonal quasicrystals were reduced to a single higher-order partial differential equations. The solution of this equation under mixed boundary conditions of mode-Ⅱ Griffith crack was obtained in terms of Fourier transform and dual integral equations methods. All components of stresses and displacements can be expressed by elemental functions and the stress intensity factor and the strain energy release rate were determined.

Abstract: By using the method of stress functions, the problem of mode-Ⅱ Griffith crack in decagonal quasicrystals was solved. First, the crack problem of two-dimensional quasi-crystals was decomposed into a plane strain state problem superposed on anti-plane state problem and secondly, by introducing stress functions, the 18 basic elasticity equations on coupling phonon-phason field of decagonal quasicrystals were reduced to a single higher-order partial differential equations. The solution of this equation under mixed boundary conditions of mode-Ⅱ Griffith crack was obtained in terms of Fourier transform and dual integral equations methods. All components of stresses and displacements can be expressed by elemental functions and the stress intensity factor and the strain energy release rate were determined.

中图分类号:

O346.1

郭玉翠;范天佑. A MODE-Ⅱ GRIFFITH CRACK IN DECAGONAL QUASICRYSTALS[J]. Applied Mathematics and Mechanics (English Edition), 2001, 22(11): 1311-1317.

GUO Yu-cui;FAN Tian-you . A MODE-Ⅱ GRIFFITH CRACK IN DECAGONAL QUASICRYSTALS[J]. Applied Mathematics and Mechanics (English Edition), 2001, 22(11): 1311-1317.

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A MODE-Ⅱ GRIFFITH CRACK IN DECAGONAL QUASICRYSTALS

A MODE-Ⅱ GRIFFITH CRACK IN DECAGONAL QUASICRYSTALS

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