Deformation and Fracture Mechanics of Engineering MaterialsUpdated to reflect recent developments in our understanding of deformation and fracture processes in structural materials. This completely revised reference includes new sections on isostress analysis, modulus of rupture, creep fracture micromechanicsms, and many more. |
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Page 49
6 FAILURE THEORIES Having characterized the varied tensile behavior of
engineering solids , it is appropriate to comment briefly on how a material ' s
tensile response may be used to predict failure in a component that experiences
...
6 FAILURE THEORIES Having characterized the varied tensile behavior of
engineering solids , it is appropriate to comment briefly on how a material ' s
tensile response may be used to predict failure in a component that experiences
...
Page 521
This simple example describes a most insidious fracture mechanismfailure does
not occur when the component is loaded initially ; instead , failure occurs after a
certain number of similar load fluctuations have been experienced . The author of
...
This simple example describes a most insidious fracture mechanismfailure does
not occur when the component is loaded initially ; instead , failure occurs after a
certain number of similar load fluctuations have been experienced . The author of
...
Page 552
30 Also , thermal failures are affected by specimen configuration . ... The corollary
is true though : If stresses are reduced to the point where mechanical failure does
not occur , this stress level certainly will be low enough such that thermal ...
30 Also , thermal failures are affected by specimen configuration . ... The corollary
is true though : If stresses are reduced to the point where mechanical failure does
not occur , this stress level certainly will be low enough such that thermal ...
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Contents
CHAPTER 2 | 50 |
ELEMENTS OF DISLOCATION THEORY | 57 |
CHAPTER 13 | 62 |
Copyright | |
15 other sections not shown
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Common terms and phrases
addition alloy aluminum applied associated atoms behavior brittle ceramics Chapter component composite Consequently constant contains corresponding crack creep critical crystal curve decrease defined deformation depends described determined developed direction discussed dislocation edge effect elastic embrittlement energy engineering example factor failure fiber FIGURE flow fracture fracture surface fracture toughness given grain boundaries greater growth important increasing initial involves lattice length load lower material matrix maximum mechanisms Metals modulus necessary normal notch Note occur orientation parallel particles permission phase plane plastic plate polymer produce properties reduced region relation relative represents Reprinted resistance respectively response result revealing rupture sample shear showing shown in Fig slip solid solution specimen steel strain strength strengthening stress stress level structure surface Table temper temperature tensile thermal thickness toughness twin values volume yield strength
References to this book
Bibliographic information
| Title | Deformation and Fracture Mechanics of Engineering Materials |
| Author | Richard W. Hertzberg |
| Edition | 4, illustrated |
| Publisher | Wiley, 1996 |
| Original from | the University of Michigan |
| Digitized | 29 Nov 2007 |
| ISBN | 0471012149, 9780471012146 |
| Length | 786 pages |
| Subjects | › › Science / Chemistry / General Science / Nanoscience Technology & Engineering / Engineering (General) Technology & Engineering / Fracture Mechanics Technology & Engineering / Materials Science / General |
| Export Citation | BiBTeX EndNote RefMan |