000 02731nam a22002297a 4500
999 _c2190
_d2190
003 OSt
005 20190527161927.0
008 190527b ||||| |||| 00| 0 eng d
020 _a978-0-8247-5389-4
028 _bProf. S. C. Bhaduri
040 _aBSDU
_bEnglish
_cBSDU
082 _a620.11892
_bGIB
100 _aGibson,Ronald F
245 _aPrinciples of Composite Material Mechanics
250 _b2nd
260 _aNewyork
_bCRC Press
_c2010; c2007
300 _a579
500 _aExtensively updated and maintaining the high standard of the popular original, Principles of Composite Material Mechanics, Second Edition reflects many of the recent developments in the mechanics of composite materials. It draws on the decades of teaching and research experience of the author and the course material of the senior undergraduate and graduate level classes he has taught. New and up-to-date information throughout the text brings modern engineering students everything they need to advance their knowledge of the evermore common composite materials. The introduction strengthens the book’s emphasis on basic principles of mechanics by adding a review of the basic mechanics of materials equations. New appendices cover the derivations of stress equilibrium equations and the strain–displacement relations from elasticity theory. Additional sections address recent applications of composite mechanics to nanocomposites, composite grid structures, and composite sandwich structures. More detailed discussion of elasticity and finite element models have been included along with results from the recent World Wide Failure Exercise. The author takes a phenomenological approach to illustrate linear viscoelastic behavior of composites. Updated information on the nature of fracture and composite testing includes coverage of the finite element implementation of the Virtual Crack Closure technique and new and revised ASTM standard test methods. The author includes updated and expanded material property tables, many more example problems and homework exercises, as well as new reference citings throughout the text.
504 _aContents : Chapter 1 : Introduction Chapter 2 : Lamina Stress -Strain Relationships Chapter 3 : Effective Moduli of a Continuous Fiber-Reforced Lamina Chapter 4 : Strength of a Continuous Fiber -Renforced Lamina Chapter 5 : Analysis of Lamina Hygrothermal Behavior Chapter 6 : Analysis of a Discountinuous Fiber 0Reinforced Lamina Chapter 7 : Analysis of Laminates Chapter 8 : Analysis of Viscoelastic and Dynamic Behavior Chapter 9 : Analysis of Fracture Chapter 10 : Mechanical Testing of Composites and their Constituents
650 _aMechanics
942 _2ddc
_cBK