论文信息 - Dynamic antiplane behaviour of interacting cracks in a piezoelectric medium

Dynamic antiplane behaviour of interacting cracks in a piezoelectric medium

In this article, we examine the dynamic interaction between two cracks in a piezoelectric medium under incident antiplane shear wave loading. The theoretical formulations governing the steady-state problem are based upon the use of integral transform techniques and a self-consistent iterative method. The resulting dynamic stress intensity factors at the interacting cracks are obtained by solving the appropriate singular integral equations using Chebyshev Polynomials at different loading frequencies. Numerical examples are provided to show the effect of the geometry of the cracks, the piezoelectric constants of the material and the frequency of the incident wave upon the dynamic stress intensity factor of the cracks.

Shaker A. Meguid | Xiaodong Wang | S. Meguid | Xiaodong Wang

[1] S. Ashley,et al. Smart skis and other adaptive structures , 1995 .

[2] Vijay K. Varadan,et al. Light-weight robot using piezoelectric motor, sensor and actuator , 1992 .

[3] Robert M. McMeeking,et al. Electrostrictive stresses near crack-like flaws , 1989 .

[4] Zhigang Suo,et al. Fracture mechanics for piezoelectric ceramics , 1992 .

[5] H. Sosa. Plane problems in piezoelectric media with defects , 1991 .

[6] Gary H. Koopmann,et al. Inertial piezoceramic actuators for smart structures , 1995, Smart Structures.

[7] James S. Sirkis,et al. Continuum damage mechanics in piezoelectric ceramics , 1995, Smart Structures.

[8] X. Wang,et al. On the dynamic interaction between a microdefect and a main crack , 1995, Proceedings of the Royal Society of London. Series A: Mathematical and Physical Sciences.

[9] Seungbae Park,et al. Crack extension in piezoelectric materials , 1994, Smart Structures.

[10] H. Sosa,et al. Three-dimensional eigenfunction analysis of a crack in a piezoelectric material , 1990 .

[11] X. Wang,et al. Diffraction of SH-Wave by Interacting Matrix Crack and an Inhomogeneity , 1997 .

[12] M. Dunn. The effects of crack face boundary conditions on the fracture mechanics of piezoelectric solids , 1994 .

[13] Y. Pak,et al. Crack Extension Force in a Piezoelectric Material , 1990 .