TY - JOUR
T1 - Anti-plane shear crack normal to and terminating at the interface of two bonded piezoelectric ceramics
AU - Li, Xian-Fang
AU - Wang, Bao-Lin
PY - 2007
Y1 - 2007
N2 - The electroelastic analysis of two bonded dissimilar piezoelectric ceramics with a crack perpendicular to and terminating at the interface is made. By using Fourier integral transform, the associated boundary value problem is reduced to a singular integral equation with generalized Cauchy kernel, the solution of which is given in closed form. Results are presented for a permeable crack under anti-plane shear loading and in-plane electric loading. Obtained results indicate that the electroelastic field near the crack tip in the homogeneous piezoelectric ceramic is dominated by a traditional inverse square-root singularity, while the electroelastic field near the crack tip at the interface exhibits the singularity of power law r¯∞, r being distance from the interface crack tip and a depending on the material constants of a bi-piezoceramic. In particular, electric field has no singularity at the crack tip in a homogeneous solid, whereas it is singular around the interface crack tip. Numerical results are given graphically to show the effects of the material properties on the singularity order and field intensity factors
AB - The electroelastic analysis of two bonded dissimilar piezoelectric ceramics with a crack perpendicular to and terminating at the interface is made. By using Fourier integral transform, the associated boundary value problem is reduced to a singular integral equation with generalized Cauchy kernel, the solution of which is given in closed form. Results are presented for a permeable crack under anti-plane shear loading and in-plane electric loading. Obtained results indicate that the electroelastic field near the crack tip in the homogeneous piezoelectric ceramic is dominated by a traditional inverse square-root singularity, while the electroelastic field near the crack tip at the interface exhibits the singularity of power law r¯∞, r being distance from the interface crack tip and a depending on the material constants of a bi-piezoceramic. In particular, electric field has no singularity at the crack tip in a homogeneous solid, whereas it is singular around the interface crack tip. Numerical results are given graphically to show the effects of the material properties on the singularity order and field intensity factors
KW - integral equations
KW - piezoelectric ceramics
UR - http://handle.westernsydney.edu.au:8081/1959.7/uws:47087
U2 - 10.1016/j.ijsolstr.2006.10.021
DO - 10.1016/j.ijsolstr.2006.10.021
M3 - Article
SN - 0020-7683
VL - 44
SP - 3796
EP - 3810
JO - International Journal of Solids and Structures
JF - International Journal of Solids and Structures
IS - 45637
ER -