This book mainly provides a comprehensive treatment of the Si BCN ceramics and their matrix CMCs, aspect of theme content including material design and preparation, microstructural feature and evolutionary process, mechanical and thermophysical properties, resistance to oxidation, thermal shock and ablation, and the mechanisms of oxidation, ablation and crystallization of Si BCN-based materials. Furthermore, this book offers the necessary fundamentals to ensure a basic understanding of the structure and properties of metastable Si-based ceramics and their composites for undergraduate and postgraduate students in materials-related disciplines in higher education, as well as for scientific research, production development and technical management in the fields of metastable materials, mechanical alloying processing nonequilibrium structure, organic-inorganic composites, etc.
Cuprins
Chapter 1 Introduction.- Chapter 2 Principle and kinetic mechanisms of mechanical alloying derived non-equilibrium materials.- Chapter 3 Crystallization behavior and thermal stability of MA-Si BCN powders.- Chapter 4 Densification kinetics and crystallization mechanisms of MA-Si BCN bulk materials.- Chapter 5 Mechanical behavior and strengthening/toughening mechanisms of MA-Si BCN materials.- Chapter 6 Thermal shock behavior and ablation corrosion mechanisms of MA-Si BCN materials.
Despre autor
Currently, Dr. Daxin Li works at Harbin Institute of Technology as an associate professor/Ph.D supervisor. He is mainly engaged in scientific research and teaching work on advanced ceramics, ceramic matrix composites, and their applications in extremely harsh service environments. He was funded by the 2019 Postdoctoral Innovative Talent Support Program and was selected as the Outstanding Youth Fund of Heilongjiang province. He has published more than 50 peer-reviewed SCI papers, got 10 granted patents, and has one book (in Chinese) in progress.
Prof. Dechang Jia works at Harbin Institute of Technology as the director of the Institute for Advanced Ceramics and the Key Laboratory of Advanced Structural-Functional Integration Materials & Green Manufacturing Technology. He is mainly engaged in scientific research and teaching work on advanced ceramics, ceramic matrix composites, and their applications in extremely harsh environments. He has won the second prize of national award for technological invention and more than five first-class and second-class prizes awarded by provincial and ministerial authorities. He has got over 100 granted patents and published 400 co-published papers in SCI, 360 papers in EI, and 8 monographs. He was funded by the National Fund for Distinguished Young Scholars in 2012 and was selected as the Academician of the World Ceramics Academy of Ceramics in 2023.
Prof. Zhihua Yang works at Harbin Institute of Technology as the deputy director of the Institute for Advanced Ceramics and the Key Laboratory of Advanced Structural-Functional Integration Materials & Green Manufacturing Technology. He got his Ph.D. degree from Harbin Institute of Technology in 2008. His research focuses on the basic science research of the structure-function integrated ceramics and their additive manufacturing technologies and the damage behavior and mechanisms of advanced ceramic materials and components under extreme service conditions. He has published more than 100 peer-reviewed journal papers, 50 granted patents, and one book.
Prof. Zhou Yu, born in 1955, is a renowned scientist in the field of ceramics and a specialist in advanced ceramic materials engineering and higher education management. He was admitted to Harbin Institute of Technology in 1977, majoring in metallic materials and heat treatment, and later successively obtained a bachelor’s and master’s degree in engineering. Upon his successful completion of his graduate study, he was admitted to a joint doctoral program hosted by the University of Tokyo in collaboration with Chinese institutions of higher education and received a doctorate in engineering from Harbin Institute of Technology in 1989. He has mainly engaged himself in studies on phase transformation and toughening in ceramics and ceramic matrix composites for multi-functional thermal protective components of spacecraft. His original work has resulted in the invention of new ceramic matrix composites that have been successfully applied in various high-temperature applications.