04903nam 22006133u 450 991100709030332120230802010920.09780486136660048613666397816219857301621985733(CKB)2550000001186842(EBL)1894621(MiAaPQ)EBC1894621(Au-PeEL)EBL1894621(CaONFJC)MIL566213(OCoLC)868273376(Perlego)110680(EXLCZ)99255000000118684220141222d2012|||| u|| |engur|n|---|||||txtrdacontentcrdamediacrrdacarrierMechanics of Composite Materials1st ed.Newburyport Dover Publications20121 online resource (574 p.)Dover Civil and Mechanical EngineeringDescription based upon print version of record.9780486442396 048644239X 9781306349628 1306349621 Title Page; Copyright Page; PREFACE TO THE DOVER EDITION; PREFACE; Table of Contents; ERRATA; CHAPTER I - SOME ELEMENTS OF MECHANICS; 1.1 ELASTICITY THEORY RESULTS; 1.2 VISCOELASTICITY THEORY; 1.3 PLASTICITY THEORY; 1.4 ESHELBY'S FORMULA; REFERENCES; CHAPTER II - EFFECTIVE MODULI: SPHERICAL INCLUSIONS; 2.1 THE CONCEPT OF EQUIVALENT HOMOGENEITY; 2.2 DILUTE SUSPENSION, SPHERICAL INCLUSIONS; 2.3 COMPOSITE SPHERES MODEL; 2.4 A THREE-PHASE MODEL; 2.5 THE SELF-CONSISTENT SCHEME; 2.6 A CONCENTRATED SUSPENSION MODEL; 2.7 SOME GENERAL OBSERVATIONS; PROBLEMS; REFERENCESCHAPTER III - EFFECTIVE MODULI: CYLINDRICAL AND LAMELLAR SYSTEMS3.1 TRANSVERSELY ISOTROPIC MEDIA; 3.2 COMPOSITE CYLINDERS MODEL; 3.3 A MODEL FOR THE TRANSVERSE SHEAR OF A FIBER SYSTEM; 3.4 FINITE LENGTH FIBER EFFECTS; 3.5 A DILUTE SUSPENSION OF RANDOMLY ORIENTED PLATELETS; PROBLEMS; REFERENCES; CHAPTER IV - BOUNDS ON EFFECTIVE MODULI AND FURTHER RESULTS; 4.1 BOUNDS ON ISOTROPIC EFFECTIVE MODULI; 4.2 BOUNDS ON TRANSVERSELY ISOTROPIC EFFECTIVE MODULI; 4.3 INTERPRETATION OF EFFECTIVE MODULI AND ASSOCIATED BOUNDS; 4.4 SOME ISOTROPIC PROPERTIES OF FIBER SYSTEMS4.5 SOME ISOTROPIC PROPERTIES OF PLATELET SYSTEMS4.6 SUMMARY OF EFFECTIVE STIFFNESS PROPERTIES AND CONCLUSIONS; PROBLEMS; REFERENCES; CHAPTER V - LAMINATES; 5.1 TRANSFORMATION RELATIONS; 5.2 CLASSICAL THEORY OF LAMINATED PLATES; 5.3 CYLINDRICAL BENDING; 5.4 HIGH-ORDER THEORY; 5.5 INTERLAMINAR EDGE EFFECTS; PROBLEMS; REFERENCES; CHAPTER VI - ANALYSIS, STRENGTH, AND DESIGN; 6.1 A BOUNDARY LAYER THEORY OF ANISOTROPIC ELASTICITY; 6.2 STRENGTH AND FAILURE CRITERIA; 6.3 DESIGN EXAMPLE I: FIBER REINFORCED PRESSURE VESSELS; 6.4 DESIGN EXAMPLE II: FIBER REINFORCED FLYWHEELS; PROBLEMS; REFERENCESCHAPTER VII - WAVE PROPAGATION7.1 WAVE CHARACTER IN EQUIVALENT HOMOGENEOUS MEDIA; 7.2 TRANSMISSION AND REFLECTION IN LAYERED MEDIA; 73 DISPERSION RELATIONS; 7.4 TRANSIENT WAVE PROPAGATION: LAYERED MEDIA; 7.5 TRANSIENT WAVE PROPAGATION: THREE-DIMENSIONALLY PERIODIC MEDIA; 7.6 ATTENUATION DUE TO RANDOM INHOMOGENEITIES; 7.7 A MIXTURE THEORY APPLICATION: DYNAMIC INSTABILITY IN FLUIDIZED COLUMNS; PROBLEMS; REFERENCES; CHAPTER VIII - INELASTIC AND NONLINEAR EFFECTS; 8.1 PLASTIC DEFORMATION OF POROUS MEDIA; 8.2 PLASTIC DEFORMATION OF FIBER SYSTEMS; 8.3 VISCOELASTIC PROPERTIES OF COMPOSITES8.4 A VISCOELASTIC FLUID SUSPENSION MODEL8.5 LARGE DEFORMATION OF FIBER SYSTEMS; PROBLEMS; REFERENCES; CHAPTER IX - EFFECTIVE THERMAL PROPERTIES; 9.1 THERMOELASTICITY THEORY; 9.2 THERMAL CONDUCTIVITY; 9.3 THERMAL EXPANSION COEFFICIENT; 9.4 SPECIFIC HEATS; 9.5 DISCUSSION OF RESULTS; PROBLEMS; REFERENCES; AUTHOR INDEX; SUBJECT INDEXA comprehensive account of the basic theory of the mechanical behavior of heterogeneous media, this volume assembles, interprets, and interrelates contributions to the field of composite materials from theoretical research, laboratory developments, and product applications.The text focuses on the continuum mechanics aspects of behavior; specifically, it invokes idealized geometric models of the heterogeneous system to obtain theoretical predictions of macroscopic properties in terms of the properties of individual constituent materials. The wide range of subjects encompasses macroscopic stiffnDover Civil and Mechanical EngineeringComposite materials -- Mechanical propertiesComposite materials -- Mechanical properties.620.1/1892620.11892Christensen Richard M40038AU-PeELAU-PeELAU-PeELBOOK9911007090303321Mechanics of composite materials347450UNINA