| Selective laser melting enabled additive manufacturing of Ti–22Al–25Nb intermetallic: excellent combination of strength and ductility, and unique microstructural features … YH Zhou, WP Li, DW Wang, L Zhang, K Ohara, J Shen, T Ebel, M Yan Acta Materialia 173, 117-129, 2019 | 139 | 2019 |
| Additive manufacturing of pure Ti with superior mechanical performance, low cost, and biocompatibility for potential replacement of Ti-6Al-4V YP Dong, JC Tang, DW Wang, N Wang, ZD He, J Li, DP Zhao, M Yan Materials & Design 196, 109142, 2020 | 107 | 2020 |
| Selective laser melting under the reactive atmosphere: a convenient and efficient approach to fabricate ultrahigh strength commercially pure titanium without sacrificing ductility DW Wang, YH Zhou, J Shen, Y Liu, DF Li, Q Zhou, G Sha, P Xu, T Ebel, ... Materials Science and Engineering: A 762, 138078, 2019 | 83 | 2019 |
| Selective laser melting of Ti–22Al–25Nb intermetallic: Significant effects of hatch distance on microstructural features and mechanical properties YH Zhou, WP Li, L Zhang, SY Zhou, X Jia, DW Wang, M Yan Journal of Materials Processing Technology 276, 116398, 2020 | 79 | 2020 |
| Effect of heat treatments on the microstructure and mechanical properties of Ti2AlNb intermetallic fabricated by selective laser melting YH Zhou, DW Wang, LJ Song, A Mukhtar, DN Huang, C Yang, M Yan Materials Science and Engineering: A 817, 141352, 2021 | 54 | 2021 |
| Ordered nitrogen complexes overcoming strength–ductility trade-off in an additively manufactured high-entropy alloy D Zhao, Q Yang, D Wang, M Yan, P Wang, M Jiang, C Liu, D Diao, C Lao, ... Virtual and Physical Prototyping 15 (sup1), 532-542, 2020 | 41 | 2020 |
| Layered surface structure of gas-atomized high Nb-containing TiAl powder and its impact on laser energy absorption for selective laser melting YH Zhou, SF Lin, YH Hou, DW Wang, P Zhou, PL Han, YL Li, M Yan Applied Surface Science 441, 210-217, 2018 | 39 | 2018 |
| A review and a statistical analysis of porosity in metals additively manufactured by laser powder bed fusion D Wang, H Han, B Sa, K Li, J Yan, J Zhang, J Liu, Z He, N Wang, M Yan Opto-Electron Adv 5 (10), 210058-210061, 2022 | 21 | 2022 |
| Additive manufacturing of the high-strength and low modulus biomedical Ti-10 Nb alloy under reactive atmosphere JW Zhang, YP Dong, JC Tang, DW Wang, WJ Lu, YL Li, DY Wang, ... Materials Today Communications 33, 104837, 2022 | 17 | 2022 |
| Strong and ductile titanium via additive manufacturing under a reactive atmosphere Y Dong, D Wang, Q Li, X Luo, J Zhang, KG Prashanth, P Wang, J Eckert, ... Materials Today Advances 17, 100347, 2023 | 16 | 2023 |
| From crack-prone to crack-free: Unravelling the roles of LaB6 in a β-solidifying TiAl alloy fabricated with laser additive manufacturing D Huang, Y Zhou, X Yao, Q Tan, H Chang, D Wang, S Lu, S Liu, J Xu, ... Materials Science and Engineering: A 861, 144358, 2022 | 15 | 2022 |
| Inheritance of microstructure and mechanical properties in laser powder bed fusion additive manufacturing: a feedstock perspective DW Wang, YH Zhou, XY Yao, YP Dong, SH Feng, ZY Liu, H Wang, M Yan Materials Science and Engineering: A 832, 142311, 2022 | 14 | 2022 |
| Selective laser melting of Cu–10Sn–0.4 P: Processing, microstructure, properties, and brief comparison with additively manufactured Cu–10Sn R Gu, X Yao, D Wang, H Wang, M Yan, KS Wong Advanced Engineering Materials 24 (2), 2100716, 2022 | 10 | 2022 |
| New trends in additive manufacturing of high-entropy alloys and alloy design by machine learning: from single-phase to multiphase systems Y Zhou, Z Zhang, D Wang, W Xiao, J Ju, S Liu, B Xiao, M Yan, T Yang J. Mater. Inform 2, 18, 2022 | 8 | 2022 |
| Printability and properties of tungsten cemented carbide produced using laser powder bed fusion additive manufacturing with Ti as a binder B Sa, S Lu, P Gong, D Wang, Y Dong, J Cheng, G Ren, M Yan International Journal of Refractory Metals and Hard Materials 111, 106106, 2023 | 6 | 2023 |
| Nanocrystalline Ti‐Al‐Mo‐Zr‐Si Alloy (TC11) by Laser Powder Bed Fusion In‐situ Alloying X Ouyang, Y Dong, D Wang, Z Wu, Y Tian, M Yan Advanced Engineering Materials 26 (10), 2301445, 2024 | 1 | 2024 |
| Highly printable, strong, and ductile ordered intermetallic alloy Y Zhou, W Xiao, D Wang, X Tang, Z Shen, W Li, J Zhang, S Zhao, J Luan, ... Nature Communications 16 (1), 1036, 2025 | | 2025 |
| 活性气氛对金属材料激光增材制造的作用机制 王大为, 董阳平, 田艳红, 毕云杰, 严明 Chinese Journal of Lasers 49 (14), 1402201-1402201-21, 2022 | | 2022 |
Ming YanSouthern University of Science and TechnologyПідтверджена електронна адреса в sustech.edu.cn
