Yin Haiqing: Professor, Doctoral Supervisor. He is the deputy director of Beijing Key Laboratory of Material Genome Engineering, member of Scientific Data Expert Group of National Technical Committee for Standardization of Science and Technology Platforms, member of Asian Materials Data Committee and Chinese Liaison, member of Powder Metallurgy Industry Technology Innovation Strategic Alliance, member of CSTM Data Committee for Material Genome Engineering, and member of the editorial board of Data in Brief and Powder Metallurgy Industry. He has involved in more than 30 research projects, including the National Key Research and Development Project, the National Natural Science Foundation project of China, the United Fund of national NSF Project, the National Science and Technology Basic Condition Platform Construction Project, the Beijing Natural Science Foundation and the Science and Technology Project, and the USTB- Enterprise joint Programs etc. He has won two first-class prizes and three second-class prizes of provincial and ministerial-level scientific and technological achievement awards. He has published more than 100 academic papers and authorized more than 10 patents.

【Research Projects】

1. The United Fund of national NSF Project: Additive manufacturing and toughening mechanism of high entropy alloys, (No. U2141205), 2022.01 ~ 2025.12

2. The National Key Technology R&D Program: Additive manufacturing of high entropy alloys and the toughening mechanism. (No. 2023YFE0200200), 2023.05 ~ 2026.04

3. The 13th five-year National Key Technology R&D Program: Material genome engineering (MGE) databases and material big data technology, (No. 2016YFB0700503),2016-2020.

4. Smart Manufacturing Plan Project from Ministry of Industry and Information Technology: Research on 6XXX series aluminum alloys for automobile panels based on material genome engineering, 2018-2019.

【Publications】

1. Lingzhi Wu, Dil Faraz Khan, Cong Zhang, Ruijie Zhang, Xue Jiang, Yongwei Wang, Geng Liu, Haiqing Yin, Jie Su, Xuanhui Qu. Microstructure and mechanical characterization of additively manufactured Fe11Cr8Ni5Co3Mo martensitic stainless steel [J]. Materials Characterization, 2023, 203, 113106-113120.

2. Lingzhi Wu, Peng Zhang, Bin Xu, Jie Liu, Haiqing Yin, Lin Zhang, Xue Jiang, Cong Zhang, Ruijie Zhang, Yongwei Wang, Xuanhui Qu. Data-driven design of brake pad composites for high-speed trains [J]. Journal of Materials Research and Technology, 2023.

3. Liu Zhang , Haiqing Yin , Ruijie Zhang, Xue Jiang, Cong Zhang, Yongwei Wang, Shu Yan, Xuanhui Qu.Mechanical properties and low temperature degradation (LTD) of cation-stabilized zirconia[J].Journal of Materials Research, 2023, 38:3383 - 3394.

4. Bin Xu, Haiqing Y, Xue Jiang, Cong Zhang, Ruijie Zhang, Yongwei Wang, Xuanhui Qu. Computational materials design: Composition optimization to develop novel Ni-based single crystal superalloys [J]. Computational Materials Science, 2022, 202: 111021.

5. Lingzhi Wu, Cong Zhang, Bin Xu, Liu Zhang, Haiqing Yin, Ruijie Zhang, Xue Jiang, Yongwei Wang, Jie Su, Geng Liu, Dil Faraz Khan, Xuanhui Qu.The optimization of martensitic stainless steel composition to reduce hot tearing after laser powder bed fusion[J].Materials & Design,2022.223(111221):1-14.

6. Bin Xu, Haiqing Y, Xu Jiang, Cong Zhang, Ruijie Zhang, Yongwei Wang, Xuanhui Qu. A first-principles study on D022 precipitation phases of Ni-based superalloys with loading stress and high temperature [J]. Solid State Communications, 2022, 342: 114632.

7. Bin Xu, Haiqing Y, Xue Jiang, Cong Zhang, Ruijie Zhang, Mao Wu, Xuanhui Qu, CALPHAD design and high-throughput search of novel Ni-based superalloys that are reinforced by γ' + γ'' [J]. Materials Today Communications, 2022, 30: 103164.