Karlsruhe Institute of Technology- Institute of Applied Materials, Karlsruhe, Germany;
Karlsruhe Institute of Technology- Institute of Applied Materials, Karlsruhe, Germany;
Karlsruhe Institute of Technology- Institute of Applied Materials, Karlsruhe, Germany;
Karlsruhe Institute of Technology- Institute of Applied Materials, Karlsruhe, Germany;
induction hardening; TRIP; residual stress;
机译:经实验验证的双频感应淬火残余应力和变形预测
机译:考虑相变和残余应力的表面高强度强化淬火的感应加热和冷却状态的数值模拟
机译:感应火焰法淬火的钢制圆锥形元件相变和残余应力的数值分析
机译:考虑奥氏体化转化可塑性的双频感应硬化的残余应力预测
机译:感应淬火微合金钢的残余应力松弛和疲劳行为。
机译:使用不同血液透析治疗频率和透析间隔的尿液收集来计算残留尿素清除率的预测方程式
机译:加热条件与AR“转化对诱导钢材残余应力的影响