Research Fields:
Light integrated molding technology
Heterosexual material connection technology
High-speed magnetic levitation
Current Courses:
Projects:
1) National 863 high-speed magnetic levitation technology localization major project
2) National Science and Technology Support Plan-Major Project of High-Speed Magnetic Levitation
3) "Research on the Standardization Evaluation and Methodology of Maglev Transportation System" Project, National Science and Technology Support Plan, Major Project, Project Number 2013BAG19B01-06-013
4) China Low and Medium Speed Maglev Vehicle Standard project
5) National Science and Technology Support Plan- Research and Development for Composite Car Body for Next Generation Metro Trains
6) National Science and Technology Support Plan- Research and Development for Program Design and Manufacturing Key Technologies Research of Composite Bogie Frame for Next Generation Metro Trains
7) National Science and Technology Support Plan- Research and Development for Equipment Cabinet with Composite Materials of Next Generation Metro Train
8) National Science and Technology Support Plan- Research and Development for Cab with Composite Materials of Next Generation Metro Train
9) T170618/Application of advanced lightweight materials and optimization of lightweight
10) Preliminary Study on Carbon Fibre Reinforced Metal-Matrix Composite for Electrical Engineering Applications
11) Development of high performance and low energy consumption pure electric car chassis and vehicle
Publications:
1)《Comparison of High-Speed Maglev and High-Speed Wheel-Rail Transportation Systems》, China Science and Technology Press, ISBN 978-7-5046-4890-7, June 2008.
2) China High-Speed Magnetic Levitation Project Construction Standard
3) China Low and Medium Speed Maglev Vehicle Standard
4) STANDARDISED EVALUATION OF SHANGHAI-HANGZHOU HIGH-SPEED MAGLEV PROJECT, Promet- Traffic & Transportation,ISSN1848-4069,2019
5) Fabrication and Fatigue Behavior of Aluminum Foam Sandwich Panel via Liquid Diffusion Welding Method, METALS,ISSN2075-4701,2019
6) Experimental study on the quasi-static compression behavior of multilayer aluminum foam sandwich structure, JOURNAL OF ALLOYS AND COMPOUNDS,ISSN0925-8388,2019
7) Development Trend and Lightweight of New Energy Automobiles [J] .Science and Technology Review. 2016 (12)
8) Effects of processing technology on the strength of the connection between high-density metal materials and gold metals, application of engineering plastic materials, 2017 (1)
patent:
1. Combination method of gold metal parts and carbon fiber composite materials in structural parts for aviation, ZL201310225439, 2015.08;
2. Carbon fiber composite material tube-type rod for aviation and its manufacturing method, ZL201310225374, 2015.11;
3. Lightweight composite material support structure for rail transit tunnels and its installation method, ZL 201510000691, 2016.06;
4. Maglev impact test platform, ZL 201310123381, 2016.07 ;
5.Aluminum alloy, gold and gold armored, flat-row, row-arranged intelligent composite electric force cable and its manufacturing method, ZL 201110353870, 2014.09;
6. A carbon fiber composite material tunnel concrete supporting structure and its installation method, CN 201510000704,2015.05.
7. A method for preparing foamed aluminum facing composite material by smelting gold method, 201610029862.6
8. A foam aluminum smelting metal-gold connection method, 201610052113.5,
9. A method for preparing foamed aluminum alloy gold by using a melt liquid surface shearing process, 201610051526.1,