OXFORD UNIVERSITY PRESS

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The Theory of Materials Failure

ISBN : 9780199662111

Price(incl.tax): 
¥12,969
Author: 
Richard M. Christensen
Pages
296 Pages
Format
Hardcover
Size
177 x 247 mm
Pub date
Mar 2013
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A complete and comprehensive theory of failure is developed for homogeneous and isotropic materials. The full range of materials types are covered from very ductile metals to extremely brittle glasses and minerals. Two failure properties suffice to predict the general failure conditions under all states of stress. With this foundation to build upon, many other aspects of failure are also treated, such as extensions to anisotropic fiber composites, cumulative damage, creep and fatigue, and microscale and nanoscale approaches to failure.

Index: 

1. The perspective on failure and direction of approach
2. History, conditions, and requirements
3. Isotropic baselines
4. The failure theory for isotropic materials
5. Isotropic materials failure behavior
6. Experimental and theoretical evaluation
7. Isotropic materials failure examples
8. The ductile/brittle transition for isotropic materials
9. Defining yield stress and failure stress (strength)
10. Fracture mechanics
11. Anisotropic, unidirectional fiber composites failure
12. Anisotropic, fiber composite laminates failure
13. Micromechanics failure analysis
14. Nanomechanics failure analysis
15. Damage, cumulative damage, creep, and fatigue failure
16. Probabilistic failure and probabilistic life prediction

About the author: 

Richard M. Christensen has over many years held positions of responsibility in industry, national laboratories, and academia. He has always been active in professional affairs and has held several leadership positions in professional societies. His technical responsibilities and research interests have been in the mechanics of materials for solids, structures, and non-Newtonian fluids. He holds five patents, has written two books and 100 archive journal papers. These are on the following and related topics: properties of polymers (viscoelasticity), composite materials, wave effects in heterogeneous materials, low density materials (extreme porosity), kinetic crack growth, life prediction and durability, failure criteria for isotropic and anisotropic solids. In 2013 he was awarded the Timoshenko Medal by the American Association of Mechanical Engineers (ASME). This award is one of the highest honors in the field of applied mechanics.

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