P.S. Yang scite author profile

P.S. Yang

4Publications

15Citation Statements Received

64Citation Statements Given

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National Cheng Kung University

Publications

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Analysis of a crack in a half-plane piezoelectric solid with traction-induction free boundary

Yang¹,

Liou²,

Sung³

2007

International Journal of Solids and Structures

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In this paper, the problem of a crack embedded in a half-plane piezoelectric solid with traction-induction free boundary is analyzed. A system of singular integral equations is formulated for the materials with general anisotropic piezoelectric properties and for the crack with arbitrary orientation. The kernel functions developed are in complex form for general anisotropic piezoelectric materials and are then specialized to the case of transversely isotropic piezoelectric materials which are in real form. The obtained coupled mechanical and electric real kernel functions may be reduced to those kernel functions for purely elastic problems when the electric effects disappear. The system of singular integral equations is solved numerically and the coupling effects of the mechanical and electric phenomena are presented by the generalized stress intensity factors for transversely isotropic piezoelectric materials.

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Transient response of SH waves in a layered half-space with sub-surface and interface cracks

Yang

Liu

Sung

2008

Applied Mathematical Modelling

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Subinterface crack in an anisotropic piezoelectric bimaterial

Yang

Liou

Sung

2008

International Journal of Solids and Structures

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a b s t r a c tIn this paper, the problem of a subinterface crack in an anisotropic piezoelectric bimaterial is analyzed. A system of singular integral equations is formulated for general anisotropic piezoelectric bimaterial with kernel functions expressed in complex form. For commonly used transversely isotropic piezoelectric materials, the kernel functions are given in real forms. By considering special properties of one of the bimaterial, various real kernel functions for half-plane problems with mechanical traction-free or displacement-fixed boundary conditions combined with different electric boundary conditions are obtained. Investigations of half-plane piezoelectric solids show that, particularly for the mechanical traction-free problem, the evaluations of the mechanical stress intensity factors (electric displacement intensity factor) under mechanical loadings (electric displacement loading) for coupled mechanical and electric problems may be evaluated directly by considering the corresponding decoupled elastic (electric) problem irrespective of what electric boundary condition is applied on the boundary. However, for the piezoelectric bimaterial problem, purely elastic bimaterial analysis or purely electric bimaterial analysis is inadequate for the determination of the generalized stress intensity factors. Instead, both elastic and electric properties of the bimaterial's constants should be simultaneously taken into account for better accuracy of the generalized stress intensity factors.

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Infinite sequence of parallel cracks in an anisotropic piezoelectric solid

Yang

Liou

Sung

2008

Computer Methods in Applied Mechanics and Engineering

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P.S. Yang

Analysis of a crack in a half-plane piezoelectric solid with traction-induction free boundary

Transient response of SH waves in a layered half-space with sub-surface and interface cracks

Subinterface crack in an anisotropic piezoelectric bimaterial

Infinite sequence of parallel cracks in an anisotropic piezoelectric solid

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