Assoc Prof Dr. Changjun Han, South China University of Technology, China
π¨βπ¬ Assoc. Prof. Dr. Changjun Han is an expert in additive manufacturing at South China University of Technology. His research focuses on metallic materials and advanced structures, metal multi-material printing, and multi-energy field additive manufacturing. With a Ph.D. in Materials Processing Engineering, he gained postdoctoral experience at Nanyang Technological University, Singapore. Dr. Han has won accolades including the Gold Award at China’s Postdoctoral Innovation and Entrepreneurship Competition. His work has earned recognition in the form of the Mechanical Industry Science and Technology Award and the Young Science and Technology Talent Award in China. π
Publication Profile
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Education
Dr. Han earned his Ph.D. in Materials Processing Engineering from Huazhong University of Science and Technology, Wuhan, China, in March 2018. He completed his B.E. in Material Forming and Control Engineering from the same university in June 2013.
Awards and Honors:
His contributions have been recognized with awards such as the Gold Award at the 1st Postdoctoral Innovation and Entrepreneurship Competition in December 2021 in China. He also received the Third Prize of Mechanical Industry Science and Technology Award for Scientific and Technological Progress in 2023, as well as the Young Science and Technology Talent Award (Guangzhou Science and Technology Innovation Nanshan Award) in 2023, both in China. π
Research Focus
Publication Top NotesΒ
Differences in microstructure and properties between selective laser melting and traditional manufacturing for fabrication of metal parts: A review
Recent advances on highβentropy alloys for 3D printing
Continuous functionally graded porous titanium scaffolds manufactured by selective laser melting for bone implants
Mechanical response of a triply periodic minimal surface cellular structures manufactured by selective laser melting
A novel crack-free Ti-modified Al-Cu-Mg alloy designed for selective laser melting
Effect of Nb content on microstructure, property and in vitro apatite-forming capability of Ti-Nb alloys fabricated via selective laser melting
Microstructure and mechanical properties of (TiB+ TiC)/Ti composites fabricated in situ via selective laser melting of Ti and B4C powders
Recent progress on additive manufacturing of multi-material structures with laser powder bed fusion
Selective laser melting of stainless-steel/nano-hydroxyapatite composites for medical applications: Microstructure, element distribution, crack and mechanical properties