High Temperature Deformation and Fracture of Materials
The energy, petrochemical, aerospace and other industries all require materials able to withstand high temperatures. High temperature strength is defined as the resistance of a material to high temperature deformation and fracture. This important book...
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The energy, petrochemical, aerospace and other industries all require materials able to withstand high temperatures. High temperature strength is defined as the resistance of a material to high temperature deformation and fracture. This important book provides a valuable reference to the main theories of high temperature deformation and fracture and the ways they can be used to predict failure and service life.
Bibliographische Angaben
- Autor: Jun-Shan Zhang
- Verlag: Woodhead Publishing
- EAN: 9780857090799
Autoren-Porträt von Jun-Shan Zhang
Professor Jun-Shan Zhang works within the School of Materials Science and Engineering at Dalian University of Technology, China.
Inhaltsverzeichnis zu „High Temperature Deformation and Fracture of Materials “
Part 1 High temperature deformation: Creep behaviour of materials; Evolution of dislocation substructures during creep; Dislocation motion at elevated temperatures; Recovery - creep theories of pure metals; Creep of solid solution alloys; Creep of second phase particles strengthened materials; Creep of particulates reinforced composite material; High temperature deformation of intermetallic compounds; Diffusional creep; Superplasticity; Mechanisms of grain boundary sliding; Multiaxial creep models. Part 2 High temperature fracture: Nucleation of creep cavity; Creep embrittlement by segregation of impurities; Diffusional growth of creep cavities; Cavity growth by coupled diffusion and creep; Constrained growth of creep cavities; Nucleation and growth of wedge - type microcracks; Creep crack growth; Creep damage mechanics; Creep damage physics; Prediction of creep rupture life; Creep - fatigue interaction; Prediction of creep - fatigue life; Environmental damage at high temperature.
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