Stress Singularity Analysis around an Interfacial Corner between Anisotropic Piezoelectric Multi-Materials
Mitsutoshi ABE, Toru IKEDA and Noriyuki MIYAZAKI
Abstract:Asymptotic solutions around an interfacial corner can be obtained by the combination of the Stroh formalism and the Williams eigenfunction method. The H-integral method, which is derived from Betti reciprocal principle, is useful for analyzing the stress intensity factors (SIFs) of cracks and corners. By expanding these theories for an interfacial corner between anisotropic piezoelectric multi-materials, we developed the modified H-integral method. This method has high generality that can deal a jointed corner with various numbers of materials and several boundary conditions on the corner surfaces. We proposed a new definition of SIFs of an interfacial corner between anisotropic piezoelectric multi-materials, which is compatible with the definitions of SIFs of a crack in a homogeneous material and an interfacial crack. The accuracy of obtained SIFs was confirmed by comparing the asymptotic solutions obtained from the SIFs with the stress field directly obtained by the finite element method (FEM). And we proposed a numerical method for degenerate materials, which cause numerical problems in the Stroh formalism. Key Words:Piezoelectric materials, Interfacial corner, Multi-materials, Stroh formalism, H-integral, Stress singularity, Stress intensity factors, Finite element method, Degenerate materials