Xiong Wei, Master Supervisor/PhD/Lecturer
Contact Information:
Office location: 533, No. 2 Teaching Building
Email: xiongwei@cug.edu.cn
Main Experience:
2022/07-present: Lecturer at the School of Mechanical Engineering and Electronic Information, China University of Geosciences (Wuhan)
2017/09-2021/06: Doctor of Science, China University of Geosciences (Wuhan)
2013/09-2016/06: Master of Design, China University of Geosciences (Wuhan)
2008/09-2013/06: Bachelor of Science in Gemstone and Materials Processing, China University of Geosciences (Wuhan)
Master Admission:
Mechanics (0855); Design (1403)
Main Research Fields:
Additive manufacturing (3D printing) technology, industrial (product) design, structural design and optimization, metal materials and processing technology
Main Research Projects (Chronological Order):
(1) Department of Science and Technology of Guangdong Province, General Program of the Natural Science Foundation of Guangdong Province, “Study on stress homogenization of negative Poisson's ratio protective structure for extremely small curved metal”, 2024-2026, PI
(2) The Ministry of Science and Technology, National Key Research and Development Program, “Research on Shape Control Technology for Cross scale Functional Structure Additive Manufacturing”, a subproject of “Additive Manufacturing Technology and Equipment Project for Thermal Control/Vibration Reduction Functional Components”, 2023-2026, participant
(3) National Remote Sensing Center of the Ministry of Science and Technology, Open research project of National Earth Observation Data Center, “Analysis and Planning of General Remote Sensing Database for University Teaching”, 2023-2024, PI
(4) “Research Start-up Fund for New Young Teachers” under Basic Research Operations of Central Universities: “Design of silver-copper alloy lattice structure based on additive manufacturing and its mechanical optimization”, 2023-2026, PI
(5) State Key Laboratory of Solidification Processing, Open Project, “Study on fatigue bearing characteristics of three-cycle minimal curved surface structure in additive forming of aviation heat exchanger”, 2023-2024, participant
(6) Department of Science and Technology of Hubei Province, Open Competition Science and Technology Projects of Hubei Province, “Integral additive manufacturing of new engine thrust chambers and cooling structures made of dissimilar metals”, 2021-2023, participant
(7) National Natural Science Foundation of China, International (Regional) Cooperation and Exchange Projects, “Additive Manufacturing and Digital Design of Multi-Mineral Materials for Sustainable Development”, 2020-2021, participant
(8) National Natural Science Foundation of China, General Program: “Basic Research on Double Gradient Sliding Zone Layer of Material and Structure in Spray Additive Forming Landslide Model”, 2017-2020, participant
Papers/Monographs:
(1) Wei Xiong et al., Subdivisional modelling method for matched metal additive manufacturing and its implementation on novel negative Poisson's ratio lattice structures[J].Additive Manufacturing,2023,68,103525. (IF: 13.695);
(2) Wei Xiong et al., Effect of selective laser melting parameters on morphology, microstructure, densification and mechanical properties of supersaturated silver alloy[J].Materials & Design, 2019,170. (IF: 9.417);
(3) Gong Ping, Hao Liang, Li Yan, Li Zheng, Xiong Wei (Corresponding). 3D-printed carbon fiber/polyamide-based flexible honeycomb structural absorber for multifunctional broadband microwave absorption[J].Carbon ,2021,185.(IF: 11.307, Journal Cover);
(4) Xiong Wei et al., Simultaneous strength and ductility enhancements of high thermal conductive Ag7.5Cu alloy by selective laser melting [J].Scientific Reports, 2022,12 (1). (IF: 5.516);
(5) Kaka Cheng; Wei Xiong et al., In-situ Deposition of Three-Dimensional Graphene on Selective Laser Melted Copper Scaffolds for High Performance Applications[J], Composites Part A: Applied Science and Manufacturing, 2020, 135: 105904. (IF: 9.463);
(6) Wei Xiong et al., Innovative movable structure design for jewelry application based on integrated 3D printing and lost-wax casting technology, Yothers W. Digital Meets Handmade: Jewelry Design, Manufacture, and Art in the Twenty-First Century [M].SUNY Press, 2021. ( Monograph).
Granted Patents:
(1) Xiong Wei; Hao Liang; Pan Ruiqi; A three-dimensional negative Poisson's ratio structure suitable for 3D printing, 2022/04/29, China, ZL202121071297.2;
(2) Xiong Wei; Hao Liang; A negative Poisson's ratio structure with high specific energy absorption, 2022/12/29, China, ZL202211725949.9;
(3) Xiong Wei; Hao Liang; A chain structure suitable for 3D printing, 2018/02/13, China, ZL201720812715.6;
(4) Xiong Wei; Hao Liang; Li Yan; An opening and closing active structure for 3D printing forming, 2022/11/01, China,ZL201710516677.4;
(5) Xiong Wei; A preparation method of metal light-transmitting plate based on 3D printing technology, 2022/08/31, China, ZL202211053908.X;
(6) Xiong Wei; Hao Liang; A jet 3D printing head and a printer applying the 3D printing head, 2017/08/11, China, ZL201621382458.9;
(7) Hao Liang; Xiong Wei; A 3D printing head with pressure-sensitive, high-temperature resistant paste, 2017/04/19, China, ZL201621121978.4;
(8) Hao Liang; Xiong Wei; Hou Tongwei; 3D printer print head, 2017/09/29, China, ZL201510777002.6.
