Mr. Shaolong Li | Materials Science | Best Researcher Award
Doctoral student, Xi’an University of Technology, China
Shaolong Li is a Ph.D. student in Materials Science and Engineering at Xiβan University of Technology, China, and a visiting research student at City University of Hong Kong. His research focuses on the configurational design of heterogeneous structured titanium matrix composite materials using powder metallurgy and additive manufacturing technologies. ππ¬
Profile
Education π
- Bachelor of Engineering in Materials Physics and Chemistry, Xiβan University of Technology, China (Sep. 2016 β Jul. 2020)
- Ph.D. student in Materials Science and Engineering, Xiβan University of Technology, China (Sep. 2020 β Present)
- Visiting Research Student in Materials Science and Engineering, City University of Hong Kong (Feb. 2024 β Present)
Experience π§ͺπ
Shaolong Li has led significant research projects, including being the Principal Investigator for the Doctoral Study Abroad Joint Education Fund at Xi’an University of Technology, with a funding of $12,000. His work is dedicated to understanding and improving the properties of titanium matrix composites.
Research Interests π¬π
Shaolong Li’s research interests include heterogeneous structures, high-temperature softening mechanisms, the Hall-Petch relationship, powder metallurgy, and additive manufacturing. His studies aim to reveal the strengthening-toughening mechanisms of titanium matrix composites through advanced characterization techniques.
Awardsπ ποΈ
Outstanding Undergraduate Thesis at the University Level, 2020
National Scholarship for Graduate Students, 2022
Academic Scholarship for Graduate Students, 2021, 2023
Excellent Academic Report, Xi’an University of Technology, 2023
Excellent Academic Report, Chinese Society for Composite Materials, 2023
Publications Top Notes π
High-temperature “Inverse” Hall-Petch relationship and fracture behavior of TA15 alloy International Journal of Plasticity, 2024- Link
Achieving back-stress strengthening at high temperature via heterogeneous distribution of nano TiBw in TC4 alloy by electron beam powder bed fusion Materials Characterization, 2024- Link
High temperature softening mechanism of powder metallurgy TA15 alloy Materials Science and Engineering: A, 2023- Link
Microstructure and mechanical properties of TiC+TiB reinforced TC4 matrix composites prepared by in-situ reaction of powder metallurgy TC4-B4C The Chinese Journal of Nonferrous Metals, 2023- Link
Loss-free tensile ductility of dual-structure titanium composites via an interdiffusion and self-organization strategy Proceedings of the National Academy of Sciences of the United States of America, 2023- Link