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(1)高性能金属大型构件材料-结构一体化增材制造技术。
(2)激光增材制造多尺度模拟仿真技术。
(3)复合增材制造装备与工艺技术。
(4)增材制造非平衡凝固理论。
- T. Zhang,N. Gao,Z. Chen,H. Zhao,Y. Wang,J. Yao,J. Peng,Y. Sun.X.W. Liu,H.B. Yu.Grain-boundary-activity correlation for electrocatalytic oxygen evolution in high-entropy alloys.PRX Energy,2023,(3):033011
- Q. Yang,X.M. Yang,T. Zhang,X.W. Liu.H.B. Yu.Structure and entropy control of polyamorphous transition in high-entropy metallic glasses.[J].Acta Materialia,2024,119701
- 高妞,刘鑫旺*,吴伟峰,白朱成,姚俊卿,樊自田. 耐热高熵多主元合金及其强韧化研究现状,材料导报,2021, 35(17): 17037-17042..
- X.L. Gong, X.W. Liu*, Z. Chen, Z.Y. Yang, W.M. Jiang, Z.T. Fan*, 3D printing of high-strength water-soluble salt cores via material extrusion, The International Journal of Advanced Manufacturing Technology 118 (2021) 2993-3003..
- X.N. Ma, Y.F. Hu, K. Wang*, H.L. Zhang, Z.T. Fan, J.P. Suo, X.W. Liu*, Microstructure and mechanical properties of a low activation cast WTaHfTiZr refractory high-entropy alloy, China Foundry. 2022, DOI: 10.1007/s41230-022-1230-z.
- Chen K., Zhang M., Song H., Liu X.W.*, Fan Z., Wang G., Zhang H.*, Additive manufacturing of Ti-6Al-4V alloy by hybrid plasma-arc deposition and micro-rolling: grain morphology, microstructure and tensile properties, SCIENCE CHINA Technological Sciences, 2022, 10.1007/s11431-021-1991-7.