Durability of Ceramic-Matrix Composites Woodhead Publishing Series in Composites Science and Engineering Series
Auteur : Li Longbiao
Durability of Ceramic-Matrix Composites presents the latest information on these high-temperature structural materials and their outstanding advantages over more conventional materials, including their high specific strength, high specific modulus, high temperature resistance and good thermal stability. The critical nature of the application of these advanced materials makes it necessary to have a complete understanding of their characterization.
This book focuses explicitly on the durability of CMCs and will be extremely valuable for materials scientists and engineers who are dealing with the simulation of durability response and fatigue of ceramic matrix composites.
1. Introduction and overview of ceramic-matrix composites 2. Matrix cracking of ceramic 3. Tensile strength of ceramic-matrix composites 4. Interface debonding and sliding of ceramic-matrix composites 5. Damage evolution of ceramic-matrix composites under cyclic fatigue loading 6. Fatigue life prediction of ceramic-matrix composites based on hysteresis dissipated energy
- Provides the latest theoretical and applied research in the field of ceramic matrix composites, particularly as it relates to usage in aerospace propulsion systems
- Presents extensive information on the micromechanics of damage evolution, lifetime prediction and durability in ceramic matrix composites
- Details parameter studies that are valuable for materials development and lifetime durability studies
Date de parution : 02-2020
Ouvrage de 478 p.
15x22.8 cm
Thème de Durability of Ceramic-Matrix Composites :
Mots-clés :
?Aero engine; Ceramic-matrix composites (CMCs); Ceramic–matrix composite (CMC); Damage evolution; Fatigue; Fibers failure; Hysteresis dissipated energy; Hysteresis loops; Interface debonding; Interface debonding and sliding; Interface oxidation; Interface wear; Life prediction; Matrix cracking; Oxidation; Rocket engine; Scramjet engine; Tensile; Tensile strength; Thermal protection system (TPS)