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008			081224s2004 maua | 001 0 eng
020			_a1402077459
039		9	_a201402040117 _bVLOAD _c201007310927 _dmalmash _c200812241405 _dNoora _c200812241258 _dNoora _y200812241256 _zNoora
050	0	0	_aTA409 _b.P47 2004
100	1		_aPerez, Nestor, _d1950- _925504
245	1	0	_aFracture mechanics / _cby Nestor Perez.
260			_aBoston : _bKluwer Academic Publishers, _c2004.
300			_aviii, 284 p. : _bill. ; _c24 cm.
505			_aForeword.- Preface.- 1. Theory of Elasticity.- 2. Introduction to Fracture Mechanics.- 3. Linear Elastic Fracture Mechanics.- 4. Elastic Field Equations.- 5. Crack Tip Plasticity.- 6. The Energy Principle.- 7. Plastic Fracture Mechanics.- 8. Mixed-Mode Fracture Mechanics.- 9. Fatigue Crack Growth.- 10. Fracture Toughness Correlations.- Appendix A: Metric Conversions.- Index.
520			_aFracture Mechanics is a graduate level text/professional reference that describes the analytical methods used to derive stress and strain functions related to fracture mechanics. The focus of the book will be on modeling and problem solving as tools to be used in interpreting the meaning of a mathematical solution for a particular engineering problem or situation. Once this is accomplished, the reader should be able to think mathematically, foresee metallurgically the significance of microstructural parameters on properties, analyze the mechanical behavior of materials, and recognize realistically how dangerous a crack is in a stressed structure, which may fail catastrophically. This book differs from others in that the subject matter is organized around the modeling and predicating approaches that are used to explain the detrimental effects of crack growth events. Thus, this book will take a more practical approach and make it especially useful as a basic reference for professional engineers.
650		0	_aFracture mechanics. _925505
942			_2lcc _n0 _cBK
999			_c10563 _d10563