Mechanical modeling of grain boundary sliding of polycrystals
Data(s) |
1994
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Resumo |
Using a variational method, a general three-dimensional solution to the problem of a sliding spherical inclusion embedded in an infinite anisotropic medium is presented in this paper. The inclusion itself is also a general anisotropic elastic medium. The interface is treated as a thin interface layer with interphase anisotropic properties. The displacements in the matrix and the inclusion are expressed as polynomial series of the cartesian coordinate components. Using the virtual work principle, a set of linear algebraic equations about unknown coefficients are obtained. Then the general sliding spherical inclusion problem is accurately solved. Based on this solution, a self-consistent method for sliding polycrystals is proposed. Combining this with a two-dimensional model of an aggregate polycrystal, a systematic analysis of the mechanical behaviour of sliding polycrystals is given in detail. Numerical results are given to show the significant effect of grain boundary sliding on the overall mechanical properties of aggregate polycrystals. |
Identificador | |
Idioma(s) |
英语 |
Fonte |
Modelling And Simulation In Materials Science And Engineering.1994,2(3A):739-754 |
Palavras-Chave | #Crystals #Inclusion #Interface #Crack |
Tipo |
期刊论文 |