1 Nickel-base superalloys: current status and potential --; 2 Materials requirements for high-temperature structures in the 21st century --; 3 Materials selection to resist creep --; 4 Reliability of structural ceramics --; 5 Ceramic matrix composites --; 6 Multiphase intermetallics --; 7 Ceramics and ceramic composites as high-temperature structural materials: challenges and opportunities --; 8 Quantum mechanical predictions in intermetallics modeling --; 9 Phase diagram calculations for high-temperature structural materials --; 10 Process modelling and microstructure --; 11 Mechanical testing of high-temperature materials: modeling data-scatter --; 12 Effect of matrix cracking on the overall thermal conductivity of fibre-reinforced composites --; 13 High-temperature mechanism-based design.
SUMMARY OR ABSTRACT
Text of Note
Conventional materials, such as nickel based alloys, will not be able to match the required performance specifications for the future generation of high temperature materials. This book reviews the characteristics and potential of a wide range of candidate superalloy replacements, such as ceramics, intermetallics, and their composites. Particular attention is devoted to the problems of processing and design with these materials.