期刊
ENGINEERING ANALYSIS WITH BOUNDARY ELEMENTS
卷 131, 期 -, 页码 194-205出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.enganabound.2021.06.025
关键词
Collocation Trefftz method; 1D hexagonal piezoelectric quasicrystals; Fracture; Stress intensity factors; Energy release rates
资金
- Graduate Innovation Project of Jiangsu Province, China [KYCX18_0060]
- China Scholarship Council [CSC201906090082]
For the first time, the boundary element method known as Trefftz Method is used to solve fracture mechanics problems of quasicrystals. The collocation Trefftz method is demonstrated as an excellent numerical method for anti-plane fracture problems in quasicrystals plate, with focus on the effects of geometry size, loadings, and materials properties on fracture results. The study concludes that the Trefftz method is effective for materials with three dimensional constitutive relations like piezoelectric quasicrystals.
In terms of solving fracture mechanics problems of quasicrystals, the boundary element method known as Trefftz Method is used for the first time. In this paper, the collocation Trefftz method as an indirect Trefftz method has been demonstrated to be an excellent numerical method for the anti-plane fracture problems in quasicrystals plate, which can exactly satisfy the governing equations and approximately satisfy the boundary conditions. The algorithms of the collocation Trefftz method and the trial functions for the anti-plane fracture problems of piezoelectric quasicrystals are presented. The effects of the geometry size, the loadings and the materials properties on the fracture results are studied. For the materials with three dimensional constitutive relations, such as piezoelectric quasicrystals, the Trefftz method is an effective numerical method to solve the fracture problems.
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