教育背景
(1) 2010-09至2014-06,法国里昂国立应用科学研究院,MEGA研究生院机械工程系,博士
(2) 2008-09至2010-07,哈尔滨工业大学,材料科学与工程学院材料科学系,硕士
(3) 2004-09至2008-07,哈尔滨工业大学,材料科学与工程学院材料科学系,本科
工作经历
(1) 2022-10至现在,威斯尼斯人,威斯尼斯人力学工程系,副教授,博导
(2) 2018-11至2022-10,威斯尼斯人,威斯尼斯人力学工程系,预聘助理教授
(3) 2016-08至2018-08,以色列理工学院,机械工程学院,博士后,合作导师:Daniel Rittel教授
(4) 2014-11至2016-06,北京金风科技股份有限公司,强度分析工程师
研究成果
(1) Sapir Gershova∗, Jing Xie, Furqan A. Shah, Keren Shemtov-Yona, Daniel Rittel. Modelling the resonant frequency associated with the spatio-temporal evolution of the bone-dental implant interface. Acta Biomaterialia. 2022, 154:302-311. (IF=10.633, TOP期刊)
(2) 乔扬, 赵至诚, 谢晶, 陈鹏万. SLM钛合金蜂窝结构的面内压缩力学行为[J]. 兵工学报, doi: 10.12382/bgxb.2022.0585.
(3) Jing Xie*, Lulu Niu, Yang Qiao, Pengwan Chen*, Daniel Rittel. Impact energy absorption behavior of graphene aerogels prepared by different drying methods. Materials & Design. 2022, 221:110912. (IF=9.417, TOP期刊)
(4) Boran Wang, Ali Arab*, Jing Xie*, Pengwan Chen. The Influence of microstructure on the flexural properties of 3D printed zirconia part via Digital Light Processing technology. Materials. 2022, 15(4):1602. (IF=3.748)
(5) Jing Xie*, Lulu Niu, Yang Qiao, Yinze Lei, Guangyong Li, Xuetong Zhang, Pengwan Chen*. The influence of the drying method on the microstructure and the compression behavior of graphene aerogel. Diamond and Related Materials, 2022, 122:108772 (IF=3.806,封面文章)
(6) Jing Xie*, Daniel Rittel, Keren Shemtov-Yona, Furqan A. Shah, Anders Palmquist. A stochastic micro to macro mechanical model for the evolution of bone-implant interface stiffness. Acta Biomaterialia,2021, 131: 415-423. (IF=10.633,TOP期刊)
(7) Lulu Niu, Jing Xie*, Guangyong Li, Xuetong Zhang, Pengwan Chen*. The compression mechanical properties of graphene aerogel. The European Physical Journal Conferences, 2021, 250(306):06010.
(8) Lulu Niu, Jing Xie*, Pengwan Chen*, Guangyong Li, Xuetong Zhang. Quasi-static compression properties of graphene aerogel. Diamond and Related Materials, 2021,111:108225 (IF=3.806)
(9) Jing Xie*, Pengwan Chen, Daniel Rittel. Finite element modeling of multiple water droplets impact onto a rough surface: Re-assessing Sa and surface wavelength. Journal of the Mechanical Behavior of Biomedical Materials, 2020, 110:103816 (IF=4.042)
(10) Jing Xie*, Daniel Rittel, Pengwan Chen. Modeling the topographic evolution of a rough metallic surface resulting from impact of water droplets. International Journal of Engineering Science, 2019, 144: 103142. (IF=7.155,TOP期刊)
(11) Jing Xie*, Daniel Rittel. The effects of waterjet peening on a random-topography metallic implant surface, European Journal of Mechanics - A/Solids, 2018, 71: 235-244. (IF=4.873)
(12) Jing Xie*, Daniel Rittel. A two-dimensional model for metallic surface roughness resulting from pure waterjet peening, International Journal of Engineering Science, 2017, 120: 189-198. (IF=7.155,TOP期刊)
(13) Jing Xie*, Daniel Rittel. Three-dimensional stochastic modeling of metallic surface roughness resulting from pure waterjet peening, International Journal of Engineering Science, 2017, 120: 241-253. (IF=7.155,TOP期刊)
教学工作
(1) 本科生双语课程《工程材料基础》
(2) 研究生暑期学校双语课程《计算材料力学在增材制造仿真中的应用》
社会兼职
• 中国力学学会爆炸力学专业委员会冲击波与医学工程专业组组员
• 中国兵工学会防爆安检专业委员会第一届委员会副总干事
• 《Defence Technology》青年编委,《兵工学报》青年编委,《Materials》主题编辑
• 中国力学学会会员,中国兵工学会会员,欧洲生物材料学会会员
研究方向
人体冲击与防护,生物冲击力学
