机译:基于位错的纳米缩进尺寸效应屈服强度模型
School of Mechanical and Power Engineering Nanjing Tech University|Jiangsu Key Lab of Design and Manufacture of Extreme Pressure Equipment|Mechanical Engineering School of Engineering College of Science and Engineering National University of Ireland Galway;
School of Mechanical and Power Engineering Nanjing Tech University|Jiangsu Key Lab of Design and Manufacture of Extreme Pressure Equipment;
School of Mechanical and Power Engineering Nanjing Tech University|Jiangsu Key Lab of Design and Manufacture of Extreme Pressure Equipment;
Mechanical Engineering School of Engineering College of Science and Engineering National University of Ireland Galway|I-Form Advanced Manufacturing Research Centre;
Mechanical Engineering School of Engineering College of Science and Engineering National University of Ireland Galway|I-Form Advanced Manufacturing Research Centre;
Nano-indentation; yield strength; dislocation; finite element model; indentation size effect;
机译:具有离散位错塑性分析的金属膜/弹性基底系统上的圆柱纳米压痕:纳米压痕尺寸效应的简单模型
机译:通过纳米凹陷,有限元模拟和尺寸分析特征微纳米TAC-Fe复合层的硬度和屈服强度
机译:模拟的纳米压痕测试显示牙本质的硬度和屈服强度。
机译:纳米级微结构多层薄膜屈服强度脱位基础造型
机译:考虑基于位错的强化机制对纳米复合材料的强度进行建模
机译:基于位错的应变梯度晶体塑性与多相场模型相结合的晶粒边界强化研究
机译:具有离散位错塑性分析的金属膜/弹性基底系统上的圆柱纳米压痕:纳米压痕尺寸效应的简单模型
机译:支撑窗孔尺寸与计算屈服强度的相关性