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机译:焊接诱导微观结构转化对X100Q贝氏体钢循环塑性和低循环疲劳作用的脱位力学本构模型
Mechanical Engineering School of Engineering NUI Galway Ireland Ryan Institute for Environmental Marine and Energy Research NUI Galway Ireland;
Mechanical Engineering School of Engineering NUI Galway Ireland Ryan Institute for Environmental Marine and Energy Research NUI Galway Ireland;
Civil Engineering School of Engineering NUI Galway Ireland Ryan Institute for Environmental Marine and Energy Research NUI Galway Ireland;
Mechanical Engineering School of Engineering NUI Galway Ireland Ryan Institute for Environmental Marine and Energy Research NUI Galway Ireland;
Microstructure; Bainite; Welding; Fatigue; Cyclic plasticity; Heat affected zone;
机译:焊接对X100Q贝氏体钢通过纳米凸缘,拉伸,循环可塑性和疲劳性格的微观结构和机械响应的影响
机译:X100Q型钢悬链冒口的循环弹塑性本构行为和疲劳损伤的实验表征和计算模型
机译:低循环疲劳期间低碳碳碳纤汤钢的疲劳性能,微观结构演化和裂纹行为
机译:奥氏体不锈钢循环可塑性现象学基本模型与位错结构的关系
机译:显微组织对相变诱导塑性钢中残余奥氏体稳定性的影响。
机译:纳米贝氏体钢的疲劳极限与显微组织的本构关系
机译:焊接对X100Q贝氏体钢通过纳米狭窄,拉伸,循环塑性和疲劳特征的影响效果