Key Laboratory of Pressure System and Safety, MOE;
School of Mechanical and Power Engineering;
East China University of Science and Technology, Shanghai 200237, P.R China;
Key Laboratory of Pressure System and Safety, MOE;
School of Mechanical and Power Engineering;
East China University of Science and Technology, Shanghai 200237, P.R China;
Key Laboratory of Pressure System and Safety, MOE;
School of Mechanical and Power Engineering;
East China University of Science and Technology, Shanghai 200237, P.R China;
机译:9-12%Cr钢在高温下的单轴平均应力松弛:实验和粘塑性本构模型
机译:循环软化和应力松弛在应变控制疲劳 - 蠕变条件下的循环软化和应力松弛的相互作用:实验和建模
机译:使用Miller和Walker统一粘塑性本构模型对Hastelloy X的蠕变和304不锈钢的疲劳进行建模
机译:高温疲劳 - 蠕变相互作用统一粘塑料本构型模型
机译:Haynes 230的高温疲劳-蠕变和蠕变响应的统一本构模型。
机译:基于逆优化方法和CR8合金钢三维处理地图的高温本构模型的参数识别
机译:基于绝对反应速率理论的钢蠕变和环状粘塑性能模拟统一组成型模型