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机译:通过高密度和低晶格失配纳米级析出物强化无钴19Ni3Mol.5Ti马氏体时效钢
Laboratory for Excellence in Advanced Steels Research, Department of Metallurgical, Materials and Biomedical Engineering, University of Texas at El Paso;
Laboratory for Excellence in Advanced Steels Research, Department of Metallurgical, Materials and Biomedical Engineering, University of Texas at El Paso;
Laboratory for Excellence in Advanced Steels Research, Department of Metallurgical, Materials and Biomedical Engineering, University of Texas at El Paso;
School of Materials Science and Engineering, University of Science and Technology Beijing;
Collaborative Innovation Center of Advanced Steel Technology, University of Science and Technology Beijing;
Collaborative Innovation Center of Advanced Steel Technology, University of Science and Technology Beijing;
Ultrahigh strength steel; Nanoscale precipitates; Toughness; Lattice misfit; Dislocation movement;
机译:“关于在超高强度无钴马氏体时效钢中具有高密度的低晶格失配析出物,延伸的弯折,点动和堆叠断层带的起源和贡献的勘误”
机译:勘察到“延长的扭结和慢跑和堆叠故障丝带在超高强度钴的钴脱纸钢中堆叠故障带堆叠故障丝带的变形行为”
机译:在高密度低晶格失配析出物的超高强度无钴马氏体时效钢中,延伸的弯折和点动以及堆叠断层带对变形行为的起源和贡献
机译:低镍无钴马氏体时效合金的力学性能和腐蚀行为
机译:含有三聚酰亚胺沉淀物的纳米级沉淀增强抗蠕变铝合金的开发。
机译:两相系统中晶格参数的失配诱导变化:基质中的相干/不相干沉淀
机译:SANS和APT研究马氏体时效钢中析出物的形成和强化