Applied Creep Mechanics
Autor Thomas Hyde, Wei Sun, Christopher Hydeen Limba Engleză Hardback – 16 oct 2013
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Complete coverage of design and life assessment methods for high-temperature components
Applied Creep Mechanics fully discusses the time-dependent deformation which occurs in a metal when subjected to stress at an elevated temperature. This book explains how to perform detailed analyses of welded components; assess the conditions under which cracks may initiate and grow; and extract valuable information about the current state of the material, which may have been in service for many years.This practical guide provides tested techniques for improving the design and life assessment methods for high-temperature components in power plants, chemical plants, and aero engines. The information presented in this book will help you optimize maintenance and repair, save time, reduce costs, and improve operational efficiency.
- Provides real-world industrial perspective on how to apply techniques to practical problems
- Case studies with linear and non-linear material behavior models
- Solution methods based on equilibrium compatibility and stress-strain and energy concepts
- Discusses high-temperature creep of engineering components; high-temperature structural analysis; high-temperature fracture mechanics; and damage mechanics
- Covers welded, notched, and cracked components
- State-of-the-art coverage of thermo-mechanical fatigue (TMF)
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Specificații
ISBN-13: 9780071828697
ISBN-10: 0071828699
Pagini: 384
Dimensiuni: 224 x 236 x 25 mm
Greutate: 0.68 kg
Editura: McGraw Hill Education
Colecția McGraw-Hill
Locul publicării:United States
ISBN-10: 0071828699
Pagini: 384
Dimensiuni: 224 x 236 x 25 mm
Greutate: 0.68 kg
Editura: McGraw Hill Education
Colecția McGraw-Hill
Locul publicării:United States
Cuprins
Ch 1. Introduction
Ch 2. Relevant Material Behavior & Solid Mechanics Background
Ch 3. Material Behavior Models for Creep Analysis
Ch 4. Stationary-state Creep of Single Material, Uncracked Components
Ch 5. Inferences from Stationary-State Analyses of Single Material, Uncracked Components
Ch 6. Stationary-State Creep of Multi-Material, Uncracked Components
Ch 7. Application of the Finite Method to the Creep of Single Material Components
Ch 8. Creep of Welded Components
Ch 9. Creep of Notched Components
Ch 10. Creep of Cracked Components
Ch 11. Small Specimen Creep Testing
A1: Basis of the Finite Element Method
A2: Derivation of Lamés Equations
A3: The Complimentary Energy Method
A4: Indicial Notation
A5: Determination of the Reference Parameters, η and β, using the Finite Element Method
Ch 2. Relevant Material Behavior & Solid Mechanics Background
Ch 3. Material Behavior Models for Creep Analysis
Ch 4. Stationary-state Creep of Single Material, Uncracked Components
Ch 5. Inferences from Stationary-State Analyses of Single Material, Uncracked Components
Ch 6. Stationary-State Creep of Multi-Material, Uncracked Components
Ch 7. Application of the Finite Method to the Creep of Single Material Components
Ch 8. Creep of Welded Components
Ch 9. Creep of Notched Components
Ch 10. Creep of Cracked Components
Ch 11. Small Specimen Creep Testing
A1: Basis of the Finite Element Method
A2: Derivation of Lamés Equations
A3: The Complimentary Energy Method
A4: Indicial Notation
A5: Determination of the Reference Parameters, η and β, using the Finite Element Method