A Voronoi cell element, formulated with creep, thermal and plastic strain was applied for investigation of thermo-mechanical fatigue behavior for particulate reinforced composites. Under the in-phase fatigue loading, the maximum of tensile deformation at the maximum given loading are larger than that at the same maximum under the out-phase fatigue. The stiffness decreases nonlinearly with the increasing of the phase angle, which results in increasing of the area of fatigue loop curve and the decrease in fatigue life. The spatially centralizing of inclusions results in decreasing of the plastic strain amplitude and the area of fatigue loop curve, which will also reduce the consumption of single-circle plastic strain energy and prolong the fatigue life.
参考文献
| [1] | P.M.Singhand;J.J.Lewandowski .[J].Metallurgical and Materials Transactions A:Physical Metallurgy and Materials Science,1993,24:2531. |
| [2] | S S Manson .ASTM STP 942[Z].American Society for Testing and Materials,1988. |
| [3] | R Hill .[J].Journal of the Mechanics and Physics of Solids,1963,11:357. |
| [4] | Th SteinkopffandM Sautter .[J].computational Materials Science,1995,4:10. |
| [5] | J ZhangandN Katsube .[J].International Journal for Numerical Methods in Engineering,1995,38:1635. |
| [6] | S Ghoshand;S N Mukhopadhyay .[J].Computer Methods in Applied Mechanics and Engineering,1993,104:211. |
| [7] | S MoorthyandS Ghosh .[J].International Journal for Numerical Methods in Engineering,1996,39:2363. |
| [8] | M B T Karen .[D].Virginia Polytechnic Institute an State University(Virginia),1999. |
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