Book chapter
On the Study of Interface Crack in Layered Piezoelectric Structures
Earth and Space 2010, pp.634-643
2010
Handle:
https://hdl.handle.net/2376/113498
Abstract
Based on an interface deformable piezoelectric bi-layer beam model, a bonded piezoelectric bi-material beam with an interface crack perpendicular to the poling axis is analyzed within the framework of the theory of linear piezoelectricity. The layer-wise approximations of both the elastic displacements and electric potential are employed, and each sub-layer is modeled as a single linearly elastic Timoshenko beam perfectly bonded together through a deformable interface. The closed form solutions for energy release (ERR) and crack energy density (CED) are derived for the layered piezoelectric beam subjected to combined uniformly distributed electromechanical loading. Loading dependence of the total CED with respect to the applied electric field is revealed with the analytical results, showing that there is a transformation from an even dependence to an odd dependence for the normalized CED when the applied mechanical loading increases. The proposed model provides improved explicit solutions for fracture analysis of piezoelectric layered structures and sheds light on the loading dependence of the fracture parameters (i.e., the ERR and CED) with respect to the applied electromechanical loadings.
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Details
- Title
- On the Study of Interface Crack in Layered Piezoelectric Structures
- Creators
- Pizhong QiaoFangliang Chen
- Publication Details
- Earth and Space 2010, pp.634-643
- Academic Unit
- Civil and Environmental Engineering, Department of
- Identifiers
- 99900547462401842
- Language
- English
- Resource Type
- Book chapter