Topic: New Technology for Preparation of High-performance Ceramic MaterialsLecturer: Fu Zhengyi (Academician of the Chinese Academy of Engineering, Chief Professor in the Science of Materials, Wuhan University of Technology)
Time: 18:30-20:30, December 9, 2022 (Friday)
Tencent Meeting: 299885811 (password: 123456)
Inviter: Professor Zhang Chi
About the Lecturer:
Fu Zhengyi,an academician of the Chinese Academy of Engineering, academician of the World Academy of Ceramics and foreign academician of the Russian Academy of Engineering, Chief Professor in the Science of Materials at Wuhan University of Technology, and Director of the State Key Laboratory of Advanced Technology for Materials Synthesis and Processing at Wuhan University of Technology. As an expert in high-performance ceramic materials, he has contributed to the successful development of a variety of new materials, which have been already in engineering applications in high-tech sectors, modern industries, and national defense industries, and has won the State Technological Invention Award (2 second prizes) and published more than 400 papers, and has been granted more than 90 authorized invention patents.
The manufacturing process of natural biological substances is the result of billions of years of evolution and natural selection, and such substances can be formed structurally at ambient temperatures with unique microstructures and excellent properties (e.g., shells, teeth, bones, etc.). This lecture will introduce a new technology of material preparation inspired by the exquisite biological manufacturing process of natural biological substances, i.e. the preparation technology inspired by biological processes, also known as process-biomimetic material preparation technology. Its main concept and approach are to "develop new technologies for the synthesis and preparation of materials based on enlightenment and inspiration drawn from bio-manufacturing processes or relationship between bio-manufacturing processes-biological structures". This lecture will also introduce in detail the important research areas in this orientation, in combination with several research cases, including biological structures, properties and service performances, and the relationship between bio-manufacturing and biological structures.