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Abstract: The experiments on the constitutive law and low-cycle fatigue life of SiCp_A356 composite material are carried out under room and elevated temperatures. Transient temperature field and stress-strain field of SiCp_A356 composite material brake disc during the emergency brake are simulated and the thermal fatigue life prediction method is studied. The thermal elasto-plastic finite element model is presented to simulate the multilinear kinematic hardening stress-strain relationship. The fatigue and creep damage analysis and life prediction model about the brake disc are presented relative to the load features, which will provide reference on design and application of high-speed rolling stock brake disc .
Key words: SiCp_A356 composite material
Brake disc Numerical simulation
Thermal fatigue Life prediction
CLC No: TG156
国家高技术研究发展计划资助项目(863计划, 2003AA31190). Received 20060830, received in revised form 20070419
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