Mechanical Behavior of Materials: Second EditionThis outstanding text offers a comprehensive treatment of the principles of the mechanical behavior of materials. Appropriate for senior and graduate courses, it is distinguished by its focus on the relationship between macroscopic properties, material microstructure, and fundamental concepts of bonding and crystal structure. The current, second edition retains the original editions extensive coverage of nonmetallics while increasing coverage of ceramics, composites, and polymers that have emerged as structural materials in their own right and are now competitive with metals in many applications. It contains new case studies, includes solved example problems, and incorporates real-life examples.
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From inside the book
Results 1-5 of 82
... increases from l 。( solid lines ) to lo + dl ( dotted lines ) . For linear elastic deformation , dl increases linearly with F. ( b ) If the applied force is kept the same , but lo is doubled , the extension is doubled . ( c ) If the ...
... increases with increasing strain . The maximum engineering stress a material can withstand in a tensile test is the tensile strength , T.S. The strain at T.S. ( = ƐEu ) represents the maximum strain for which plastic deformation is ...
... increases from loto l ; and the transverse cross- sectional area decreases from Aŋ to A¡ ( Fig . 1.7a vs. Fig . 1.7b ) . Since volume is F lo A ; Au unchanged as a result of plastic deformation , the lengths and areas are related by ...
... increases with plastic deformation . Thus , at low strains , σT σE and ET EE , so that , for example , in discussion ... increase in flow stress accompanying the greater strains is large enough to lead to removal of the incipient ...
... increases rapidly with sample reduction in height . This is due to two factors . First , the material work - hardens during compression . Second , p is based on the initial cross - sectional area . In compression this area increases ...
Contents
1 | |
44 | |
85 | |
Plastic Deformation in Single and Polycrystalline Materials | 140 |
Strengthening of Crystalline Materials | 175 |
Composite Materials | 244 |
HighTemperature Deformation of Crystalline Materials | 293 |
Deformation of Noncrystalline Materials | 354 |
Toughening Mechanisms and the Physics of Fracture | 454 |
HighTemperature Fracture | 522 |
Fatigue of Engineering Materials | 566 |
Embrittlement | 630 |
Cellular Solids | 686 |
Name Index | 718 |
Specific Substance Index | 721 |
Subject Index | 727 |