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机译:使用损伤力学模型的不锈钢304管液压成型性预测
Department of Mechanical Engineering Faculty of Engineering King Mongkut's Universityof Technology Thonburi 126 Pracha Uthit Road Bang Mod Thung Khru Bangkok 10140 Thailand;
Department of Mechanical Engineering Faculty of Engineering King Mongkut's Universityof Technology Thonburi 126 Pracha Uthit Road Bang Mod Thung Khru Bangkok 10140 Thailand;
Department of Mechanical Engineering Faculty of Engineering King Mongkut's Universityof Technology Thonburi 126 Pracha Uthit Road Bang Mod Thung Khru Bangkok 10140 Thailand;
Division of Materials Technology School of Energy Environment and Materials King Mongkut's Universityof Technology Thonburi 126 Pracha Uthit Road Bang Mod Thung Khru Bangkok 10140 Thailand;
National Metal and MaterialsTechnology Center (MTEC) Pathumthani 12120 Thailand;
Department of Mechanical Engineering Faculty of Engineering King Mongkut's Universityof Technology Thonburi 126 Pracha Uthit Road Bang Mod Thung Khru Bangkok 10140 Thailand;
Steel; Simulation; Failure; Forming limit diagrams; Damage; Stainless steel; Fracture (Materials); Steel sheet; Nucleation (Physics); Pressure; Damage mechanics;
机译:使用损伤力学模型的不锈钢304管液压成型性预测
机译:304不锈钢液压成形极限图的实验与数值研究。
机译:304不锈钢管中的液压成形过程中限制图的实验性和数值研究
机译:液压成形条件下SUS304不锈钢焊管潜在破裂位置研究
机译:先进的高强度钢管在弯管和液压成型中的可成型性。
机译:700°C-900°C变形过程中304不锈钢流量应力模拟的随机森林方法
机译:基于Gurson-Tvergaard-Needleman损伤模型的液压成形铝合金管爆裂预测
机译:用线性损伤法,应变范围分区法和损伤率法预测304不锈钢不同热量的蠕变 - 疲劳寿命。