Faculty
Name : Jianxin Xie
Department : Lab of Advanced Materials and Processing
Title :Professor
Address :Institute for Advanced Materials and Technology, University of Science and Technology Beijing, 30 Xueyuan Road, Haidian District, Beijing, P.R. China
Zip code :100083
Office Location : 313Room, Corrosion Building
Office Telephone : 010-62332254
Mailbox : jxxie@mater.ustb.edu.cn
Personal profile:
Jianxin Xie, doctor of engineering, professor, doctoral supervisor, Member of the Chinese Academy of Engineering, Director of the Academic Committee at University of Science and Technology Beijing. He is the executive vice chairman of the Chinese Materials Research Society and the leader of the expert group of the “National Key Project of Materials Genetic Engineering”.
Research direction:
1. Solidification and deformation controlling of materials
2. Preparation and processing of advanced composite materials
3. Intelligent preparation and processing technology of materials
4. Metal extrusion theory and technology
5. Key theories and technologies of material genome engineering
Scientific research achievement :
He has published more than 350 academic papers, 5 books and more than 100 state-authorized invention patents, the related achievements have been transformed and applied in more than 20 enterprises. He has won 1 second prize of National Technology Invention, 2 second prize of National Science and Technology Progress, 2 International Academic Awards, 8 Provincial and Ministerial Science and Technology Awards, 1 first prize of National Teaching Achievement Award, and 3 provincial and ministerial teaching achievement awards. He presided over the formulation of 1 international standard and 2 national standards.
[1] Zhang H T, Fu H D, He X Q, Wang C S, Jiang L, Chen L Q, Xie J X*. Dramatically enhanced combination of ultimate tensile strength and electric conductivity of alloys via machine learning screening[J]. Acta Materialia, 2020, 200: 803-810.
[2] Wang C S, Fu H D, Jiang L, Xue D Z, Xie J X*. A property-oriented design strategy for high performance copper alloys via machine learning[J]. npj Computational Materials, 2019, 5(1): 87.
[3] Zhou X Z, Fu H D, Xue F, Zhang Y, Xie J X*. Abnormal precipitation of the μ phase during solution treatment of γ′-strengthened Co-Ni-Al-W-based superalloys[J]. Scripta Materialia, 2020, 181: 30-34.
[4] Jiang L, Fu H D, Wang C S, Li W D, Xie J X*. Enhanced mechanical and electrical properties of a Cu-Ni-Si alloy by thermos mechanical processing[J]. Metallurgical and Materials Transactions A, 2020, 51(1), 331-341.
[5] Zhang Q, Zheng L, Yuan H, Li Z, Zhang G Q, Xie J X*. Effects of composition and particle size on the surface state and degassing behavior of nickel-based superalloy powders[J]. Applied Surface Science, 2021, 556: 149793.