赵新青
近期热点
资料介绍
个人简历
1984年和1992年分别从东北大学和吉林大学获得学士和硕士学位;1995年于中国科学院金属研究所获得博士学位;1995年至1997年在清华大学材料系从事博士后研究;2002年至2003年在马德里材料科学研究所从事纳米材料相变研究;2004年起在北京航空航天大学材料科学与工程学院,从事合金相变与力学行为基础研究和航空航天材料的研发及应用。研究领域
合金相变与力学行为\r形状记忆合金及钛合金""近期论文
Yongzhong Lai, Kai Wang, Chao Lv, Huilong Hou*, Xinqing Zhao*, Strain glass transition in Ni47.5+xTi50?xFe2.5 alloys,Journal of Alloys and Compounds, 929 (2022) 167387.\r\rKai Wang, Chao Lv, Kaichao Zhang, Yongzhong Lai, Xinqing Zhao*, Elastic modulus anomaly in a Fe-Mn-Cr-C cryogenic steel,Scripta Materialia, 221 (2022) 114946.\r\rKaichao Zhang, Kai Wang, Yu Fu, Wenlong Xiao, Jingyun Han, Xinqing Zhao*,Strain glass transition in a metastable β Ti-Nb-O alloy with high oxygen content,Scripta Materialia, 214 (2022) 114661.\r\rFangyu Qin, Wenlong Xiao, Fengshuang Lu, Yuanchao Ji, Xinqing Zhao*, Xiaobing Ren. Resolution of a discrepancy of the magnetic mechanism for Elinvar anomaly in Fe-Ni based alloys, Journal of Materials Science and Technology, 35 (2019) 396-401.\r\rFangyu Qin, Fengshuang Lu, Xinqing Zhao*, Microstructural characterization of γ¢ precipitates and their influence on the properties of Ni-Span C Elinvar alloy, Materials Characterization, 148 (2019) 81-87.\r\rLichun Qi, Xueliang Qiao, Lijun Huang, Xu Huang, Wenlong Xiao, Xinqing Zhao*, Effect of cold rolling deformation on the microstructure and properties of Ti-10V-2Fe-3Al alloy, Materials Characterization, 155 (2019) 109789.\r\rLichun Qi, Xueliang Qiao, Lijun Huang, Xu Huang, Xinqing Zhao*, Effect of structural stability on the stress induced martensitic transformation in Ti-10V-2Fe-3Al alloy, Materials Science & Engineering A 756 (2019) 381-388.\r\rFangyu Qin, Fengshuang Lu, Yulin Chen, Jianmin Yang, Xinqing Zhao*, Deformation induced Elinvar behavior in Fe-Ni Invar alloy, Science Bulletin, 63 (2018) 1040-1042.\r\rYulin Chen, Wenlong Xiao, Kun Jiao, Dehai Ping, Huibin Xu, Xinqing Zhao*, Yunzhi Wang*,Cubic martensite in high carbon steel, Physical Review Materials, 2 (2018) 050601.\r\rYulin Chen, Dehai Ping, Yunzhi Wang, Xinqing Zhao*, An atomic mechanism for the formation of nanotwins in high carbon martensite,Journal of Alloys and Compounds, 767 (2018) 68-72. 相关热点