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Books by Keyword: Interfacial Debonding
Books
Edited by:
K. Niihara, K. Nakano, T. Sekino, E. Yasuda
Online since: July 1998
Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
High performance materials are needed in many thermomechanical applications, such as advanced jet engines or gas turbines, thermal protection of space planes, thermal engineering and nuclear fusion. Ceramic-matrix composites, reinforced with long fibers, are expected to be the most promising candidates for such applications. However, several key problems will have to be solved in the near future. These problems include, above all, the development of a superior thermomechanical performance and oxidation resistance for ceramic fibers and composites, highly efficient protection against corrosion, better fiber/matrix interface design and performance, and cost effective processing.
High performance materials are needed in many thermomechanical applications, such as advanced jet engines or gas turbines, thermal protection of space planes, thermal engineering and nuclear fusion. Ceramic-matrix composites, reinforced with long fibers, are expected to be the most promising candidates for such applications. However, several key problems will have to be solved in the near future. These problems include, above all, the development of a superior thermomechanical performance and oxidation resistance for ceramic fibers and composites, highly efficient protection against corrosion, better fiber/matrix interface design and performance, and cost effective processing.
Edited by:
T.W. Clyne
Online since: December 1995
Description: There is extensive interest in the development of new and improved composite materials. This is particularly true of composite systems based upon metallic and ceramic constituents. As the characteristics of the interface are of central importance, there is a great incentive for an improved understanding of the nature of interfaces between constituents in such composite systems and of the factors that affect their mechanical characteristics.
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