2012.09-2016.06    兰州城市浪live 石油工程专业，学士

2016.09-2019.06    中国民航大学油气储运工程专业，硕士

2021.09-2025.06    四川大学核科学与技术专业，博士

2019.08-2020.08    中国科浪live 兰州化学物理研究所，助理工程师

2020.09-2021.03    中国地质大学（北京）郑州研究院，助理工程师

2025.08-至今          任浪live 教师

1.  四川大学2025届优秀毕业研究生；

2.  荣获 2016 届“优秀毕业生”。

1. 论文情况

[1] Ping Xu, Huicaho Liu, Lvjun Zhou, et al., Microstructural evolution and mechanical 

     properties of Ti55531–0.5Nb fabricated by selective laser melting under different heat 

     treatments, Mater Charact, 208 (2024) 113683.

[2] Ping Xu, Lvjun Zhou, Linfeng Ye, et al., Influence of heat treatment on microstructure and 

     tensile properties of selective laser melting metastable Ti55531-0.5Nb alloy, Engineering 

     Failure Analysis, 164 (2024) 108704.

[3] Yan Wang, Ping Xu*, Surface damage of metastable β Ti55531 alloy with bimodal 

     microstructure induced by friction and wear, Engineering Failure Analysis, 163 (2024) 

     108514.

[4] Ping Xu, Hanyan Zuo, Lvjun Zhou, et al., Finite element simulation and experimental 

     validation of the thermomechanical behavior in selective laser melting of Ti55531 alloy, 

     The International Journal of Advanced Manufacturing Technology, 132 (2024) 5567-5584.

[5] Ping Xu, Jingjing Wang, An Li, et al., Tribological performances of a-C films tested on dry 

     nitrogen environment with various Hertz pressures: Failure mechanisms and in-situ 

     formation graphene, Surface and Coatings Technology, 449 (2022) 128991.

[6] Ping Xu, Yan Wang, Xueqian Cao, et al., The tribological properties of DLC/SiC and 

     DLC/Si3N4 under different relative humidity: The transition from abrasive wear to tribo- 

     chemical reaction, Ceram Int, 47 (2021) 3901-3910.

[7] Ping Xu, Xueqian Cao, Minglan Zhang, et al., Friction and wear behaviors of different DLC 

     films sliding against SiC and Si3N4 balls under high relative humidity, Diamond and 

     Related Materials, 108 (2020) 107977.

[8] 徐平, 江国业, 胡艳娇, 等. 匙孔效应对激光熔覆层横截面几何形貌的影响研究, 表面技术, 2019, 

     48(10): 125-130.

2. 科研项目

[1] 中国核动力研究设计院联合创新:氧化弥散强化FeCrAl钢增材制造及其辐照效应研究

     (SCU&NPIC-LHCX-16)，2023.07-2025.06，参研

[2] 中国工程物理研究院表面物理与化学重点实验室2024年度学科发展基金项目：增材制造高通量

     筛选TiTa合金制备(XKFZ202405)，2025.01-2026.12，参研