深潜装备用高强高韧钛合金应用技术研究，国家科技重大专项课题，2025.7-2028.6,128万元
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金属材料增材制造

(1) Qu Z, Zhang ZJ, Liu R, Xu L, Zhang YN,  Li XT, Zhao ZK, Duan QQ, Wang SG, Li SJ, Ma YJ, Shao XH, Yang R, Eckert J, Ritchie RO, Zhang ZF. High fatigue resistance in a titanium alloy via near-void-free 3D printing. Nature   2024, 626: 999-1004.
(2) Zhang MY, Yu Q, Liu ZQ*, Zhang J, Tan GQ, Jiao D, Zhu WJ, Li SJ, Zhang ZF, Yang R, Ritchie RO. 3-D printed Mg-NiTi interpenetrating-phase composites with high strength, damping capacity and energy absorption efficiency. Sci. Adv. 2020, 6: eaba5581.
(3) Zhao S, Li SJ, Wang SG, Wang WJ, Hou WT, Li Y, Zhang LC, Hao YL, Yang R, Misra RDK, Murr LE. Compressive and fatigue behavior of functionally graded Ti-6Al-4V meshes fabricated by electron beam melting. Acta Mater. 2018, 150: 1-15.
(4) Liu YJ, Wang HL, Li SJ, Wang SG, Wang WJ, Hou WT, Hao YL, Yang R, Zhang LC. Compressive and fatigue behavior of beta-type titanium porous structures fabricated by electron beam melting. Acta Mater. 2017, 126: 58.
(5) Liu YJ, Li SJ, Wang HL, Hou WT, Hao YL, Yang R, Sercombe TB, Zhang LC. Microstructure, defects and mechanical behavior of beta-type titanium porous structures manufactured by electron beam melting and selective laser melting. Acta Mater. 2016, 113: 56-67.

省科技进步一等奖

材料学

博士研究生11人，硕士研究生2人, 其中1人获师昌绪二等奖学金，2人获师昌绪三等奖学金