本科生课程：微机原理与应用B；激光加工技术

研究生课程：纳米材料与纳米制造

教育经历：

2010.09－2013.09　法国Université d'Orléans，法国科学院GREMI研究所，获博士学位

2009.09－2010.06　北京航空航天大学，物理科学与核能工程学院，博士研究生

2008.09－2009.06　北京航空航天大学，物理科学与核能工程学院，硕士研究生

2004.09－2008.06　新疆大学，物理科学与技术工程学院，获学士学位

工作经历:

2025.07-至今 　　 北京科技大学，机械工程学院，教授

2020.07-2025.07　 北京科技大学，机械工程学院，副教授

2016.06-2020.07　 北京科技大学，机械工程学院，讲师

2014.09-2016.06　 北京航空航天大学，物理科学与核能工程学院，博士后

代表性论著：

[1] Ye, W., Wang, W.*, Jia, Z., Li, W., Guo, Y., & Xie, L*. (2025). Interpretable machine learning reveals HVOF process-particle-structure relationships in CoCrFeNiMo0. 2 high-entropy alloy coatings. Surface and Coatings Technology, 132493.

[2] Wang, W., Li, W., Guo, Y., Qin, J., Xie, L.*, Wu, G., & Guo, X. (2025). Innovative process optimization of 8YSZ coatings via supersonic atmospheric plasma spraying: Unraveling the complex interplay of deposition behavior and microstructure. Surface and Coatings Technology, 132274.

[3] Wang, W., Li, W., Xie, L.*, Jia, Z., & Chen, Z. (2025). Effects of temperature and trace elements on the mechanical properties and dissolution-diffusion characteristics of CoCrFeNi in liquid LBE: Atomic insights from molecular dynamics. Journal of Nuclear Materials, 155861.

[4] Jia, Z., Wang, W., Qi, W., Li, W., Song, K., & Xie, L*. (2025). Effective thermal conductivity and thermal insulation performance of plasma-sprayed Mo/YSZ functionally graded thermal barrier coatings. Surface and Coatings Technology, 496, 131698.

[5] Ye, W., Wang, W., Qi, W., Li, W., & Xie, L*. (2024). Preparation process, surface properties and mechanistic study of HVAF-sprayed CoCrFeNiMo0. 2 high-entropy alloy coatings. Surface and Coatings Technology, 494, 131423.

[6] Xie, L., Wu, G., Fu, X., Wang, X., Li, C., Peng, Q., & Huang, Y. (2024). Microstructure and hardness of CoNiCrFeTix high-entropy alloy coatings prepared by laser cladding: Combining experimental and molecular dynamics simulation. Materials Today Communications, 40, 109597.

[7] Xie, L., Wu, G., Liaw, P. K., Wang, W., Li, D., Peng, Q., ... & Zhang, Y. (2024). Temperature gradient enhances the solidification process and properties of a CoCrFeNi high-entropy alloy: Atomic insights from molecular dynamics simulations. Computational Materials Science, 231, 112538.

[8] Xie, L., Da Wu, G., Peng, Q., & Wang, W. R. (2023). Molecular dynamics simulation on the dissolution and diffusion characteristics of FeCrAl alloy in liquid LBE. Annals of Nuclear Energy, 192, 109983.

[9] Xie, L., Brault, P., Thomann, A. L., Yang, X., Zhang, Y., & Shang, G. (2016). Molecular dynamics simulation of Al–Co–Cr–Cu–Fe–Ni high entropy alloy thin film growth. Intermetallics, 68, 78-86.

[10] Xie, L., Brault, P., Coutanceau, C., Bauchire, J. M., Caillard, A., Baranton, S., ... & Neyts, E. C. (2015). Efficient amorphous platinum catalyst cluster growth on porous carbon: A combined Molecular Dynamics and experimental study. Applied Catalysis B: Environmental, 162, 21-26.

[11] Xie, L., Brault, P., Bauchire, J. M., Thomann, A. L., & Bedra, L. (2014). Molecular dynamics simulations of clusters and thin film growth in the context of plasma sputtering deposition. Journal of Physics D: Applied Physics, 47(22), 224004.

[12] Xie, L., Brault, P., Thomann, A. L., & Bauchire, J. M. (2013). AlCoCrCuFeNi high entropy alloy cluster growth and annealing on silicon: A classical molecular dynamics simulation study. Applied surface science, 285, 810-816.

成果与荣誉：

任职以来，坚持个人学术研究服务机械工程学科发展，积极开展科研工作。在跨尺度多物理场服役安全耦合行为机理、功能结构梯度一体化涂层先进制造技术等方面积极探索。在跨尺度多物理场服役安全耦合行为机理研究方面，提出了跨尺度多物理场服役安全耦合行为机理的研究方法，解决了材料与结构服役行为的跨尺度多物理场模拟和微观组织、动态响应及损伤演化机制的系统规律问题，突破了“成分结构-制备工艺-服役性能”全链条关联模拟机制的关键难点，为极端条件下装备材料可靠性评价提供了坚实的理论基础。在功能结构梯度一体化涂层先进制造技术，围绕航空航天、核能和新能源产业等重大工程需求，提出多功能新型梯度复合涂层的制备方法，增强装备/材料在极端环境下的可靠性，解决了强制冷却超音速热喷涂及视觉引导自反馈陶瓷/金属梯度复合涂层制备的关键技术问题，突破了具备耐高温冲刷、防腐蚀和抗辐照性能的功能梯度涂层精准调控的难点，推动了关键装备表面性能的高效调控和可靠提升。先后承担装备预研领域基金、装备预研教育部联合基金、国防科技创新特区项目、国家自然科学基金青年科学基金、博士后基金、厂企合作等科研项目20余项，发表相关学术论文50余篇。