I obtained my Doctor of Engineering degree from Harbin Institute of Technology in 1992, marking the beginning of my in-depth exploration in the field of materials science and engineering. From 1992 to 2016, I served as a faculty member at South China University of Technology. During those 24 years, I dedicated myself to both teaching and academic research—guiding students to develop their professional skills while conducting in-depth studies on key issues in advanced materials, which laid a solid foundation for my subsequent research and administrative work. Since 2016, I have taken on the role of Vice President at Dongguan University of Technology, where I have been committed to promoting the integration of the university’s discipline construction with local industrial development, and fostering a more vibrant academic and research environment. Currently, I hold the title of Second-Class Professor and Doctoral Supervisor. I also serve as Director of the Guangdong Provincial Engineering Technology Research Center for High-Performance Light Alloys and Their Forming, as well as Director of the Dongguan Key Laboratory of Advanced Light Alloys and Processing Technology. Additionally, I was selected as a Provincial-Level Cultivation Object of the 2nd Batch of Guangdong Province’s “Thousand-Hundred-Ten Project”—an honor that has motivated me to continue pushing the boundaries of my research. In terms of scientific research, I have presided over more than 20 key projects at the national, provincial, and ministerial levels. These include National Key R&D Program projects, General Program projects of the National Natural Science Foundation of China, and a series of provincial and ministerial-level scientific and technological research initiatives. My efforts in these projects have been recognized with several prestigious awards: one First Prize of Science and Technology Progress Award from the Ministry of Education, one Second Prize of Science and Technology Progress Award from China Aerospace Industry Corporation, and one Second Prize of Science and Technology Progress Award from Guangdong Province. Furthermore, I have obtained more than 20 authorized invention patents and published nearly 200 papers in core scientific and technological journals, aiming to share valuable research findings and promote academic exchanges in related fields. |
My research focuses on three core directions that align with both academic frontiers and industrial needs: 1、The design, research and development, processing, forming, and 3D printing of advanced light alloys and their composite materials; 2、The study of thermal failure mechanisms and protection technologies for solid-state lithium batteries; 3、The surface treatment of light metals. Through continuous exploration in these areas, I hope to contribute to technological innovation and industrial upgrading in the field of advanced materials. |
Representative papers: 1、Explainable machine learning for predicting tensile properties of aluminum alloys in the laser powder bed fusion process; 2、A comprehensive review of diamond-reinforced metal matrix composites for thermal management in high-performance electronics; 3、From defects to advantages: A novel approach to self-lubricating glass-SiC-PTFE coatings; 4、Excellent hot-corrosion and thermal-shock resistance of metal-enamel composite coating on martensitic stainless steel enabled by interface engineering; 5、Improved Oxidation and Hot Corrosion Resistance of 1Cr11Ni2W2MoV Stainless Steel at 650 degrees C by a Novel Glass-Ceramic Coating; 6、Precipitation mechanism in ultra-fine grained Al-Mg-Si-Cu alloy fabricated by fast solidification and hot extrusion processes; 7、Insightful investigation for the strengthening mechanisms of Al–Cu alloy prepared by wire arc additive manufacturing; 8、Effects of Ni content on microstructure and performance of MAO coatings on binary Al–Ni alloys; 9、In-situ formation of onion-like carbon film by tribo-induced catalytic degradation of hydrocarbon: Effect of lubrication condition and load; 10、Effect of transverse static magnetic field on radial microstructure of hypereutectic aluminum alloy during directional solidification。
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