姓名:李小杰,性别:女
学科专业:凝聚态物理
学历及学位:研究生,博士
职称:讲师
职务:无
联系方式:Email: lixj26@tzc.edu.cn
学习经历:
2013年毕业于信阳师范学院,物理学专业,获物理学学士学位
2019年毕业于大连理工大学,凝聚态物理专业,获理学博士学位
2020年毕业于瑞典皇家理工学院,材料科学与工程专业,获博士学位
工作经历:
2020年6月至今,台州学院物理系专任教师
社会主要兼职:
无
研究方向:
金属及其合金材料的计算与表征,包括铁基合金材料、高熵合金等。致力于新材料的的开发设计与物性调控,从合金效应出发,采用第一性原理方法,研究不同合金元素对合金基体力学性质、表面性质、缺陷性质的影响。
主要科研项目:
无
近期代表性论文及成果:
(1) Xiaojie Li et al. Generalized stacking faults energies of face-centered cubic high-entropy alloys: A first-principles study. Intermetallics 145,107556(2022).
(2)Stephan Schönecker, Xiaojie Li et al. Harnessing elastic anisotropy to achieve low-modulus refractory high-entropy alloys for biomedical applications. Materials & Design 215, 110430 (2022).
(3)Danyang Lin, Xin Xi, Xiaojie Li et al. High-temperature mechanical properties of FeCoCrNi high-entropy alloys fabricated via selective laser melting. Materials Science and Engineering: A, 832 142354 (2022).
(4)Xiaojie Li et al. The influence of temperature on the elastic properties of body-centered cubic reduced activation steels, Materials & Design, 197, 109282 (2021) .
(5)Raquel Lizárraga, Xiaojie Li et al. The effect of Si and Ge on the elastic properties and plastic deformation modes in high- and medium-entropy alloys. Appl. Phys. Lett. 119, 141904 (2021).
(6) Danyang Lin, Liangyong Xu, Xiaojie Li et al. A Si-containing FeCoCrNi high-entropy alloy with high strength and ductility synthesized in situ via selective laser melting. Additive Manufacturing 35, 101340(2020).
(7)Xiaojie Li et al. First-principles study of crystal-face specificity in surface properties of Fe-rich Fe-Cr alloys, Physical Review Materials, 3, 034401(2019).
(8)Xiaojie Li et al. Understanding the mechanical properties of reduced activation steels, Materials & Design, 46:260-272 (2018).
个人荣誉及获奖:
无
