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Title: Mechanical Behavior of Materials: Engineering Methods for Deformation, Fracture, and Fatigue (2nd Edition)
ISBN: 013905720X
Author:
Norman E. Dowling
Publicate Date: 1998-09-02
Publish: 1998-09-02
List Price: $131.00
Average Customer Rating: 4.5
Format: Paperback
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Amazon Lowest New Price: $120.00
Amazon Lowest Used Price: $27.95
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| Customer Review: |
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1: Excellent example of what an engineering text should be!
Professor Dowling has done a remarkable job in presenting his material. "Mechanical Behavior of Materials" is pedagogically solid, enabling comfortable self-study for engineering students or practicing engineers. The coverage of deformation, static failure, and fatigue failure analyses are comprehensive, and yet sufficiently detailed to be applied in practice. Individual chapters are devoted to each of the three major fatigue analysis techniques, i.e., stress, strain, and fracture mechanics methods. Each are clearly and thoroughly explained, along with their applications and limitations. Also covered are a host of standard testing procedures, material properties for all major classes, plasticity, creep, relaxation, and material damping (a rarity). Altogether, Professor Dowling's book stands out as an exceptional example of what an engineering text should be. It is a very fine successor to an earlier, and still worthwhile work called "Stress, Strain, and Strength" by the late Professor Robert Juvinall. Another useful book, is "Metal Fatigue in Engineering", by Fuchs and Stephens.
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2: Good textbook for students and junior engineers
This book is a great reading for students or junior engineers who are just starting to work in Mechanical Engineering. However, a Senior Engineer and any experienced practician will look for something more deep.
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3: Excellent text!
I thought that this was an excellent text!
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4: The best of its kind
This is a very comprehensive and well-written book. Unlike other books that are overly theoretical, this book emphasizes practical methods that are currently being used to solve real-world problems. The treatment of uniaxial fatigue (both stress-based and strain-based) is superb. The chapters on failure theories and 3-D stress/strain are also excellent. Some readers like myself, however, may want a little more coverage of multiaxial fatigue. There is also no coverage at all on column stability. However, if you've found that your college texts on Machine Design and Mechanics of Materials are simply too idealized to be useful, you'll embrace this book with open arms.
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