Verfügbarkeit: Analysis and performance of fiber composites

Analysis and performance of fiber composites:

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Bibliographische Detailangaben
Hauptverfasser:	Agarwal, Bhagwan D. (VerfasserIn), Broutman, Lawrence J. (VerfasserIn), Chandrashekhara, K. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Hoboken, NJ Wiley 2006
Ausgabe:	3. ed.
Schlagworte:	Fibrous composites Reinforced plastics Faserverbundwerkstoff Verbundwerkstoff Faserverstärkter Kunststoff
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIV, 562 S. Ill., graph. Darst.
ISBN:	9780471268918 0471268917

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Datensatz im Suchindex

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adam_text	CONTENTS Preface xiii 1 Introduction 1 1.1 Definition / 1 1.2 Characteristics / 2 1.3 Classification / 3 1.4 Particulate Composites / 5 1.5 Fiber-Reinforced Composites / 7 1.6 Applications of Fiber Composites / 10 Exercise Problems / 14 References / 15 2 Fibers, Matrices, and Fabrication of Composites 16 2.1 Advanced Fibers / 16 2.1.1 Glass Fibers / 16 2.1.1.1 Production of Glass Fibers / 17 2.1.1.2 Glass Composition and Properties / 18 2.1.1.3 Surface Treatment of Fibers: Sizes and Coupling Agents / 18 2.1.1.4 Forms of Glass Fiber / 21 2.1.2 Carbon and Graphite Fibers / 23 2.1.3 Aramid Fibers / 26 2.1.4 Boron Fibers / 27 2.1.5 Other Fibers / 28 2.2 Matrix Materials / 30 2.2.1 Polymers / 30 iii iv CONTENTS 2.2.1.1 Thermosetting and Thermoplastic Polymers / 31 2.2.1.2 Polymer Properties of Importance to the Composite / 31 2.2.1.3 Common Polymeric Matrix Materials / 34 2.2.1.4 Fillers / 39 2.2.2 Metals / 39 2.3 Fabrication of Composites / 41 2.3.1 Fabrication of Thermosetting Resin Matrix Composites / 42 2.3.1.1 Hand Lay-up Technique / 43 2.3.1.2 Bag Molding Processes / 46 2.3.1.3 Resin Transfer Molding / 49 2.3.1.4 Filament Winding / 49 2.3.1.5 Pultrusion / 51 2.3.1.6 Preformed Molding Compounds / 53 2.3.2 Fabrication of Thermoplastic-Resin Matrix Composites (Short-Fiber Composites) / 55 2.3.3 Fabrication of Metal Matrix Composites / 58 2.3.4 Fabrication of Ceramic Matrix Composites / 59 Suggested Reading / 60 3 Behavior of Unidirectional Composites 62 3.1 Introduction / 62 3.1.1 Nomenclature / 62 3.1.2 Volume and Weight Fractions / 64 3.2 Longitudinal Behavior of Unidirectional Composites / 67 3.2.1 Initial Stiffness / 68 3.2.2 Load Sharing / 71 3.2.3 Behavior beyond Initial Deformation / 73 3.2.4 Failure Mechanism and Strength / 74 3.2.5 Factors Influencing Longitudinal Strength and Stiffness / 76 3.3 Transverse Stiffness and Strength / 80 3.3.1 Constant-Stress Model / 80 3.3.2 Elasticity Methods of Stiffness Prediction / 83 3.3.3 Halpin-Tsai Equations for Transverse Modulus / 85 CONTENTS V 3.3.4 Transverse Strength / 87 3.3.4.1 Micromechanics of Transverse Failure / 88 3.3.4.2 Prediction of Transverse Strength / 90 3.4 Prediction of Shear Modulus / 91 3.5 Prediction of Poisson s Ratio / 95 3.6 Failure Modes / 96 3.6.1 Failure under Longitudinal Tensile Loads / 100 3.6.2 Failure under Longitudinal Compressive Loads / 102 3.6.3 Failure under Transverse Tensile Loads / 106 3.6.4 Failure under Transverse Compressive Loads / 107 3.6.5 Failure under In-Plane Shear Loads / 107 3.7 Expansion Coefficients and Transport Properties / 108 3.7.1 Thermal Expansion Coefficients / 108 3.7.2 Moisture Expansion Coefficients / 114 3.7.3 Transport Properties / 114 3.7.4 Mass Diffusion / 117 3.8 Typical Unidirectional Fiber Composite Properties / 123 Exercise Problems / 124 References / 129 4 Short-Fiber Composites 132 4.1 Introduction / 132 4.2 Theories of Stress Transfer / 133 4.2.1 Approximate Analysis of Stress Transfer / 133 4.2.2 Stress Distributions from Finite-Element Analysis / 137 4.2.3 Average Fiber Stress / 139 4.3 Modulus and Strength of Short-Fiber Composites / 140 4.3.1 Prediction of Modulus / 141 4.3.2 Prediction of Strength / 145 4.3.3 Effect of Matrix Ductility / 150 4.4 Ribbon-Reinforced Composites / 152 Exercise Problems / 155 References / 156 Vi CONTENTS 5 Analysis of an Orthotropic Lamina 158 5.1 Introduction / 158 5.1.1 Orthotropic Materials / 158 5.2 Stress-Strain Relations and Engineering Constants / 160 5.2.1 Stress-Strain Relations for Specially Orthotropic Lamina / I6l 5.2.2 Stress-Strain Relations for Generally Orthotropic Lamina / 164 5.2.3 Transformation of Engineering Constants / 166 5.3 Hooke s Law and Stiffness and Compliance Matrices / 174 5.3.1 General Anisotropic Material / 174 5.3.2 Specially Orthotropic Material / 177 5.3.3 Transversely Isotropic Material / 180 5.3.4 Isotropic Material / 181 5.3.5 Specially Orthotropic Material under Plane Stress / 182 5.3.6 Compliance Tensor and Compliance Matrix / 184 5.3.7 Relations between Engineering Constants and Elements of Stiffness and Compliance Matrices / 185 5.3.8 Restrictions on Elastic Constants / 187 5.3.9 Transformation of Stiffness and Compliance Matrices / 189 5.3.10 Invariant Forms of Stiffness and Compliance Matrices / 194 5.4 Strengths of an Orthotropic Lamina / 196 5.4.1 Maximum-Stress Theory / 197 5.4.2 Maximum-Strain Theory / 200 5.4.3 Maximum-Work Theory / 203 5.4.4 Importance of Sign of Shear Stress on Strength of Composites / 205 Exercise Problems / 209 References / 212 6 Analysis of Laminated Composites 213 6.1 Introduction / 213 6.2 Laminate Strains / 213 6.3 Variation of Stresses in a Laminate / 216 CONTENTS Vii 6.4 Resultant Forces and Moments: Synthesis of Stiffness Matrix / 218 6.5 Laminate Description System / 225 6.6 Construction and Properties of Special Laminates / 226 6.6.1 Symmetric Laminates / 227 6.6.2 Unidirectional, Cross-Ply, and Angle-Ply Laminates / 228 6.6.3 Quasi-isotropic Laminates / 229 6.7 Determination of Laminae Stresses and Strains / 238 6.8 Analysis of Laminates after Initial Failure / 247 6.9 Hygrothermal Stresses in Laminates / 263 6.9.1 Concepts of Thermal Stresses / 263 6.9.2 Hygrothermal Stress Calculations / 264 6.10 Laminate Analysis Through Computers / 272 Exercise Problems / 277 References / 281 7 Analysis of Laminated Plates and Beams 282 7.1 Introduction / 282 7.2 Governing Equations for Plates / 283 7.2.1 Equilibrium Equations / 283 7.2.2 Equilibrium Equations in Terms of Displacements / 286 7.3 Application of Plate Theory / 288 7.3.1 Bending / 288 7.3.1.1 Bending of General Laminates / 294 7.3.2 Buckling / 295 7.3.3 Free Vibrations / 301 7.4 Deformations Due to Transverse Shear / 306 7.4.1 First-Order Shear Deformation Theory / 306 7.4.1.1 Transverse Shear Deformation Effects in Bending of a Simply Supported Rectangular Specially Orthotropic Plate / 309 7.4.2 Higher-Order Shear Deformation Theory / 311 7.5 Analysis of Laminated Beams / 314 Viii CONTENTS 7.5.1 Governing Equations for Laminated Beams / 314 7.5.2 Application of Beam Theory / 315 7.5.2.1 Bending / 315 7.5.2.2 Buckling / 318 7.5.2.3 Free Vibrations / 319 Exercise Problems / 320 References / 322 8 Advanced Topics in Fiber Composites 324 8.1 Interlaminar Stresses and Free-Edge Effects / 324 8.1.1 Concepts of Interlaminar Stresses / 324 8.1.2 Determination of Interlaminar Stresses / 326 8.1.3 Effect of Stacking Sequence on Interlaminar Stresses / 328 8.1.4 Approximate Solutions for Interlaminar Stresses / 330 8.1.5 Summary / 334 8.2 Fracture Mechanics of Fiber Composites / 335 8.2.1 Introduction / 335 8.2.1.1 Microscopic Failure Initiation / 335 8.2.1.2 Fracture Process in Composites / 336 8.2.2 Fracture Mechanics Concepts and Measures of Fracture Toughness / 338 8.2.2.1 Strain-Energy Release Rate (G) / 339 8.2.2.2 Stress-Intensity Factor (K) / 341 8.2.2.3 J-Integral / 345 8.2.3 Fracture Toughness of Composite Laminates / 346 8.2.4 Whitney-Nuismer Failure Criteria for Notched Composites / 349 8.3 Joints for Composite Structures / 355 8.3.1 Adhesively Bonded Joints / 355 8.3.1.1 Bonding Mechanisms / 355 8.3.1.2 Joint Configurations / 356 8.3.1.3 Joint Failure Modes / 357 8.3.1.4 Stresses in Joints / 358 8.3.1.5 Advantages and Disadvantages of Adhesively Bonded Joints / 359 CONTENTS ix 8.3.2 Mechanically Fastened Joints / 360 8.3.2.1 Failure Modes of Mechanically Fastened Joints / 360 8.3.2.2 Advantages and Disadvantages of Mechanically Fastened Joints / 361 8.3.3 Bonded-Fastened Joints / 361 Exercise Problems / 362 References / 363 9 Performance of Fiber Composites: Fatigue, Impact, and Environmental Effects 368 9.1 Fatigue / 368 9.1.1 Introduction / 368 9.1.2 Fatigue Damage / 370 9.1.2.1 Damage/Crack Initiation / 370 9.1.2.2 Crack Arrest and Crack Branching / 370 9.1.2.3 Final Fracture / 373 9.1.2.4 Schematic Representation / 373 9.1.2.5 Damage Characterization / 374 9.1.2.6 Influence of Damage on Properties / 375 9.1.3 Factors Influencing Fatigue Behavior of Composites / 378 9.1.4 Empirical Relations for Fatigue Damage and Fatigue Life / 385 9.1.5 Fatigue of High-Modulus Fiber-Reinforced Composites / 386 9.1.6 Fatigue of Short-Fiber Composites / 390 9.2 Impact / 395 9.2.1 Introduction and Fracture Process / 395 9.2.2 Energy-Absorbing Mechanisms and Failure Models / 396 9.2.2.1 Fiber Breakage / 396 9.2.2.2 Matrix Deformation and Cracking / 398 9.2.2.3 Fiber Dehonding / 399 9.2.2.4 Fiber Pullout / 399 9.2.2.5 Delaminatkm Cracks / 401 9.2.3 Effect of Materials and Testing Variables on Impact Properties / 401 X CONTENTS 9.2.4 Hybrid Composites and Their Impact Strength / 407 9.2.5 Damage Due to Low-Velocity Impact / 411 9.3 Environmental-Interaction Effects / 416 9.3.1 Fiber Strength / 416 9.3.1.1 Features of Stress Corrosion / 416 9.3.1.2 Static Fatigue and Stress-Rupture of Fibers / 417 9.3.1.3 Stress Corrosion of Glass Fibers and GRP / 419 9.3.2 Matrix Effects / 422 9.3.2.1 Effect of Temperature and Moisture / 422 9.3.2.2 Degradation at Elevated Temperatures / 426 9.3.2.3 Stress—Rupture Characteristics at Modest Temperatures / 429 Exercise Problems / 431 References / 431 10 Experimental Characterization of Composites 439 10.1 Introduction / 439 10.2 Measurement of Physical Properties / 440 10.2.1 Density / 440 10.2.2 Constituent Weight and Volume Fractions / 441 10.2.3 Void Volume Fraction / 442 10.2.4 Thermal Expansion Coefficients / 442 10.2.5 Moisture Absorption and Diffusivity / 443 10.2.6 Moisture Expansion Coefficients / 444 10.3 Measurement of Mechanical Properties / 445 10.3.1 Properties in Tension / 445 10.3.2 Properties in Compression / 449 10.3.3 In-Place Shear Properties / 452 10.3.3.1 Torsion Tube Test / 452 10.3.3.2 Iosipescu Shear Test / 453 10.3.3.3 [±45], Coupon Test / 455 10.3.3.4 Off-Axis Coupon Test / 456 10.3.3.5 Other Tests / 458 10.3.4 Flexural Properties / 459 CONTENTS Xi 10.3.5 Measures of In-Plane Fracture Toughness / 463 103.5.1 Critical Strain-Energy Release Rate (G(.) / 463 10.3.5.2 Critical Stress-Intensity Factor or Crack Growth Resistance (KK) / 464 10.3.5.3 Critical J-lntergral (./,.) / 470 10.3.6 Interlaminar Shear Strength and Fracture Toughness / 471 10.3.7 Impact Properties / 475 10.4 Damage Identification Using Nondestructive Evaluation Techniques / 481 10.4.1 Ultrasonics / 481 10.4.2 Acoustic Emission / 483 10.4.3 x-Radiography / 485 10.4.4 Thermography / 486 10.4.5 Laser Shearography / 488 10.5 General Remarks on Characterization / 488 Exercise Problems / 490 References / 491 11 Emerging Composite Materials 496 11.1 Nanocomposites / 496 11.2 Carbon-Carbon Composites / 498 11.3 Biocomposites / 498 11.3.1 Biofibers / 498 11.3.2 Wood-Plastic Composites (WPCs) / 501 11.3.3 Biopolymers / 502 11.4 Composites in Smart Structures / 503 Suggested Reading / 504 Appendix 1 Matrices and Tensors 507 Appendix 2 Equations of Theory of Elasticity 530 Appendix 3 Laminate Orientation Code 542 xii CONTENTS Appendix 4 Properties of Fiber Composites 548 Appendix 5 Computer Programs for Laminate Analysis 553 Index 555
adam_txt	CONTENTS Preface xiii 1 Introduction 1 1.1 Definition / 1 1.2 Characteristics / 2 1.3 Classification / 3 1.4 Particulate Composites / 5 1.5 Fiber-Reinforced Composites / 7 1.6 Applications of Fiber Composites / 10 Exercise Problems / 14 References / 15 2 Fibers, Matrices, and Fabrication of Composites 16 2.1 Advanced Fibers / 16 2.1.1 Glass Fibers / 16 2.1.1.1 Production of Glass Fibers / 17 2.1.1.2 Glass Composition and Properties / 18 2.1.1.3 Surface Treatment of Fibers: Sizes and Coupling Agents / 18 2.1.1.4 Forms of Glass Fiber / 21 2.1.2 Carbon and Graphite Fibers / 23 2.1.3 Aramid Fibers / 26 2.1.4 Boron Fibers / 27 2.1.5 Other Fibers / 28 2.2 Matrix Materials / 30 2.2.1 Polymers / 30 iii iv CONTENTS 2.2.1.1 Thermosetting and Thermoplastic Polymers / 31 2.2.1.2 Polymer Properties of Importance to the Composite / 31 2.2.1.3 Common Polymeric Matrix Materials / 34 2.2.1.4 Fillers / 39 2.2.2 Metals / 39 2.3 Fabrication of Composites / 41 2.3.1 Fabrication of Thermosetting Resin Matrix Composites / 42 2.3.1.1 Hand Lay-up Technique / 43 2.3.1.2 Bag Molding Processes / 46 2.3.1.3 Resin Transfer Molding / 49 2.3.1.4 Filament Winding / 49 2.3.1.5 Pultrusion / 51 2.3.1.6 Preformed Molding Compounds / 53 2.3.2 Fabrication of Thermoplastic-Resin Matrix Composites (Short-Fiber Composites) / 55 2.3.3 Fabrication of Metal Matrix Composites / 58 2.3.4 Fabrication of Ceramic Matrix Composites / 59 Suggested Reading / 60 3 Behavior of Unidirectional Composites 62 3.1 Introduction / 62 3.1.1 Nomenclature / 62 3.1.2 Volume and Weight Fractions / 64 3.2 Longitudinal Behavior of Unidirectional Composites / 67 3.2.1 Initial Stiffness / 68 3.2.2 Load Sharing / 71 3.2.3 Behavior beyond Initial Deformation / 73 3.2.4 Failure Mechanism and Strength / 74 3.2.5 Factors Influencing Longitudinal Strength and Stiffness / 76 3.3 Transverse Stiffness and Strength / 80 3.3.1 Constant-Stress Model / 80 3.3.2 Elasticity Methods of Stiffness Prediction / 83 3.3.3 Halpin-Tsai Equations for Transverse Modulus / 85 CONTENTS V 3.3.4 Transverse Strength / 87 3.3.4.1 Micromechanics of Transverse Failure / 88 3.3.4.2 Prediction of Transverse Strength / 90 3.4 Prediction of Shear Modulus / 91 3.5 Prediction of Poisson's Ratio / 95 3.6 Failure Modes / 96 3.6.1 Failure under Longitudinal Tensile Loads / 100 3.6.2 Failure under Longitudinal Compressive Loads / 102 3.6.3 Failure under Transverse Tensile Loads / 106 3.6.4 Failure under Transverse Compressive Loads / 107 3.6.5 Failure under In-Plane Shear Loads / 107 3.7 Expansion Coefficients and Transport Properties / 108 3.7.1 Thermal Expansion Coefficients / 108 3.7.2 Moisture Expansion Coefficients / 114 3.7.3 Transport Properties / 114 3.7.4 Mass Diffusion / 117 3.8 Typical Unidirectional Fiber Composite Properties / 123 Exercise Problems / 124 References / 129 4 Short-Fiber Composites 132 4.1 Introduction / 132 4.2 Theories of Stress Transfer / 133 4.2.1 Approximate Analysis of Stress Transfer / 133 4.2.2 Stress Distributions from Finite-Element Analysis / 137 4.2.3 Average Fiber Stress / 139 4.3 Modulus and Strength of Short-Fiber Composites / 140 4.3.1 Prediction of Modulus / 141 4.3.2 Prediction of Strength / 145 4.3.3 Effect of Matrix Ductility / 150 4.4 Ribbon-Reinforced Composites / 152 Exercise Problems / 155 References / 156 Vi CONTENTS 5 Analysis of an Orthotropic Lamina 158 5.1 Introduction / 158 5.1.1 Orthotropic Materials / 158 5.2 Stress-Strain Relations and Engineering Constants / 160 5.2.1 Stress-Strain Relations for Specially Orthotropic Lamina / I6l 5.2.2 Stress-Strain Relations for Generally Orthotropic Lamina / 164 5.2.3 Transformation of Engineering Constants / 166 5.3 Hooke's Law and Stiffness and Compliance Matrices / 174 5.3.1 General Anisotropic Material / 174 5.3.2 Specially Orthotropic Material / 177 5.3.3 Transversely Isotropic Material / 180 5.3.4 Isotropic Material / 181 5.3.5 Specially Orthotropic Material under Plane Stress / 182 5.3.6 Compliance Tensor and Compliance Matrix / 184 5.3.7 Relations between Engineering Constants and Elements of Stiffness and Compliance Matrices / 185 5.3.8 Restrictions on Elastic Constants / 187 5.3.9 Transformation of Stiffness and Compliance Matrices / 189 5.3.10 Invariant Forms of Stiffness and Compliance Matrices / 194 5.4 Strengths of an Orthotropic Lamina / 196 5.4.1 Maximum-Stress Theory / 197 5.4.2 Maximum-Strain Theory / 200 5.4.3 Maximum-Work Theory / 203 5.4.4 Importance of Sign of Shear Stress on Strength of Composites / 205 Exercise Problems / 209 References / 212 6 Analysis of Laminated Composites 213 6.1 Introduction / 213 6.2 Laminate Strains / 213 6.3 Variation of Stresses in a Laminate / 216 CONTENTS Vii 6.4 Resultant Forces and Moments: Synthesis of Stiffness Matrix / 218 6.5 Laminate Description System / 225 6.6 Construction and Properties of Special Laminates / 226 6.6.1 Symmetric Laminates / 227 6.6.2 Unidirectional, Cross-Ply, and Angle-Ply Laminates / 228 6.6.3 Quasi-isotropic Laminates / 229 6.7 Determination of Laminae Stresses and Strains / 238 6.8 Analysis of Laminates after Initial Failure / 247 6.9 Hygrothermal Stresses in Laminates / 263 6.9.1 Concepts of Thermal Stresses / 263 6.9.2 Hygrothermal Stress Calculations / 264 6.10 Laminate Analysis Through Computers / 272 Exercise Problems / 277 References / 281 7 Analysis of Laminated Plates and Beams 282 7.1 Introduction / 282 7.2 Governing Equations for Plates / 283 7.2.1 Equilibrium Equations / 283 7.2.2 Equilibrium Equations in Terms of Displacements / 286 7.3 Application of Plate Theory / 288 7.3.1 Bending / 288 7.3.1.1 Bending of General Laminates / 294 7.3.2 Buckling / 295 7.3.3 Free Vibrations / 301 7.4 Deformations Due to Transverse Shear / 306 7.4.1 First-Order Shear Deformation Theory / 306 7.4.1.1 Transverse Shear Deformation Effects in Bending of a Simply Supported Rectangular Specially Orthotropic Plate / 309 7.4.2 Higher-Order Shear Deformation Theory / 311 7.5 Analysis of Laminated Beams / 314 Viii CONTENTS 7.5.1 Governing Equations for Laminated Beams / 314 7.5.2 Application of Beam Theory / 315 7.5.2.1 Bending / 315 7.5.2.2 Buckling / 318 7.5.2.3 Free Vibrations / 319 Exercise Problems / 320 References / 322 8 Advanced Topics in Fiber Composites 324 8.1 Interlaminar Stresses and Free-Edge Effects / 324 8.1.1 Concepts of Interlaminar Stresses / 324 8.1.2 Determination of Interlaminar Stresses / 326 8.1.3 Effect of Stacking Sequence on Interlaminar Stresses / 328 8.1.4 Approximate Solutions for Interlaminar Stresses / 330 8.1.5 Summary / 334 8.2 Fracture Mechanics of Fiber Composites / 335 8.2.1 Introduction / 335 8.2.1.1 Microscopic Failure Initiation / 335 8.2.1.2 Fracture Process in Composites / 336 8.2.2 Fracture Mechanics Concepts and Measures of Fracture Toughness / 338 8.2.2.1 Strain-Energy Release Rate (G) / 339 8.2.2.2 Stress-Intensity Factor (K) / 341 8.2.2.3 J-Integral / 345 8.2.3 Fracture Toughness of Composite Laminates / 346 8.2.4 Whitney-Nuismer Failure Criteria for Notched Composites / 349 8.3 Joints for Composite Structures / 355 8.3.1 Adhesively Bonded Joints / 355 8.3.1.1 Bonding Mechanisms / 355 8.3.1.2 Joint Configurations / 356 8.3.1.3 Joint Failure Modes / 357 8.3.1.4 Stresses in Joints / 358 8.3.1.5 Advantages and Disadvantages of Adhesively Bonded Joints / 359 CONTENTS ix 8.3.2 Mechanically Fastened Joints / 360 8.3.2.1 Failure Modes of Mechanically Fastened Joints / 360 8.3.2.2 Advantages and Disadvantages of Mechanically Fastened Joints / 361 8.3.3 Bonded-Fastened Joints / 361 Exercise Problems / 362 References / 363 9 Performance of Fiber Composites: Fatigue, Impact, and Environmental Effects 368 9.1 Fatigue / 368 9.1.1 Introduction / 368 9.1.2 Fatigue Damage / 370 9.1.2.1 Damage/Crack Initiation / 370 9.1.2.2 Crack Arrest and Crack Branching / 370 9.1.2.3 Final Fracture / 373 9.1.2.4 Schematic Representation / 373 9.1.2.5 Damage Characterization / 374 9.1.2.6 Influence of Damage on Properties / 375 9.1.3 Factors Influencing Fatigue Behavior of Composites / 378 9.1.4 Empirical Relations for Fatigue Damage and Fatigue Life / 385 9.1.5 Fatigue of High-Modulus Fiber-Reinforced Composites / 386 9.1.6 Fatigue of Short-Fiber Composites / 390 9.2 Impact / 395 9.2.1 Introduction and Fracture Process / 395 9.2.2 Energy-Absorbing Mechanisms and Failure Models / 396 9.2.2.1 Fiber Breakage / 396 9.2.2.2 Matrix Deformation and Cracking / 398 9.2.2.3 Fiber Dehonding / 399 9.2.2.4 Fiber Pullout / 399 9.2.2.5 Delaminatkm Cracks / 401 9.2.3 Effect of Materials and Testing Variables on Impact Properties / 401 X CONTENTS 9.2.4 Hybrid Composites and Their Impact Strength / 407 9.2.5 Damage Due to Low-Velocity Impact / 411 9.3 Environmental-Interaction Effects / 416 9.3.1 Fiber Strength / 416 9.3.1.1 Features of Stress Corrosion / 416 9.3.1.2 Static Fatigue and Stress-Rupture of Fibers / 417 9.3.1.3 Stress Corrosion of Glass Fibers and GRP / 419 9.3.2 Matrix Effects / 422 9.3.2.1 Effect of Temperature and Moisture / 422 9.3.2.2 Degradation at Elevated Temperatures / 426 9.3.2.3 Stress—Rupture Characteristics at Modest Temperatures / 429 Exercise Problems / 431 References / 431 10 Experimental Characterization of Composites 439 10.1 Introduction / 439 10.2 Measurement of Physical Properties / 440 10.2.1 Density / 440 10.2.2 Constituent Weight and Volume Fractions / 441 10.2.3 Void Volume Fraction / 442 10.2.4 Thermal Expansion Coefficients / 442 10.2.5 Moisture Absorption and Diffusivity / 443 10.2.6 Moisture Expansion Coefficients / 444 10.3 Measurement of Mechanical Properties / 445 10.3.1 Properties in Tension / 445 10.3.2 Properties in Compression / 449 10.3.3 In-Place Shear Properties / 452 10.3.3.1 Torsion Tube Test / 452 10.3.3.2 Iosipescu Shear Test / 453 10.3.3.3 [±45], Coupon Test / 455 10.3.3.4 Off-Axis Coupon Test / 456 10.3.3.5 Other Tests / 458 10.3.4 Flexural Properties / 459 CONTENTS Xi 10.3.5 Measures of In-Plane Fracture Toughness / 463 103.5.1 Critical Strain-Energy Release Rate (G(.) / 463 10.3.5.2 Critical Stress-Intensity Factor or Crack Growth Resistance (KK) / 464 10.3.5.3 Critical J-lntergral (./,.) / 470 10.3.6 Interlaminar Shear Strength and Fracture Toughness / 471 10.3.7 Impact Properties / 475 10.4 Damage Identification Using Nondestructive Evaluation Techniques / 481 10.4.1 Ultrasonics / 481 10.4.2 Acoustic Emission / 483 10.4.3 x-Radiography / 485 10.4.4 Thermography / 486 10.4.5 Laser Shearography / 488 10.5 General Remarks on Characterization / 488 Exercise Problems / 490 References / 491 11 Emerging Composite Materials 496 11.1 Nanocomposites / 496 11.2 Carbon-Carbon Composites / 498 11.3 Biocomposites / 498 11.3.1 Biofibers / 498 11.3.2 Wood-Plastic Composites (WPCs) / 501 11.3.3 Biopolymers / 502 11.4 Composites in "Smart" Structures / 503 Suggested Reading / 504 Appendix 1 Matrices and Tensors 507 Appendix 2 Equations of Theory of Elasticity 530 Appendix 3 Laminate Orientation Code 542 xii CONTENTS Appendix 4 Properties of Fiber Composites 548 Appendix 5 Computer Programs for Laminate Analysis 553 Index 555
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author	Agarwal, Bhagwan D. Broutman, Lawrence J. Chandrashekhara, K.
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discipline	Werkstoffwissenschaften / Fertigungstechnik
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edition	3. ed.
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id	DE-604.BV021798379
illustrated	Illustrated
index_date	2024-07-02T15:47:01Z
indexdate	2024-07-09T20:44:52Z
institution	BVB
isbn	9780471268918 0471268917
language	English
lccn	2005044699
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oclc_num	61748462
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physical	XIV, 562 S. Ill., graph. Darst.
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spelling	Agarwal, Bhagwan D. Verfasser aut Analysis and performance of fiber composites Bhagwan D. Agarwal ; Lawrence J. Broutman ; K. Chandrashekhara 3. ed. Hoboken, NJ Wiley 2006 XIV, 562 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Fibrous composites Reinforced plastics Faserverbundwerkstoff (DE-588)4134341-4 gnd rswk-swf Verbundwerkstoff (DE-588)4062670-2 gnd rswk-swf Faserverstärkter Kunststoff (DE-588)4128805-1 gnd rswk-swf Faserverbundwerkstoff (DE-588)4134341-4 s Faserverstärkter Kunststoff (DE-588)4128805-1 s 1\p DE-604 Verbundwerkstoff (DE-588)4062670-2 s 2\p DE-604 Broutman, Lawrence J. Verfasser aut Chandrashekhara, K. Verfasser aut HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015010927&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Agarwal, Bhagwan D. Broutman, Lawrence J. Chandrashekhara, K. Analysis and performance of fiber composites Fibrous composites Reinforced plastics Faserverbundwerkstoff (DE-588)4134341-4 gnd Verbundwerkstoff (DE-588)4062670-2 gnd Faserverstärkter Kunststoff (DE-588)4128805-1 gnd
subject_GND	(DE-588)4134341-4 (DE-588)4062670-2 (DE-588)4128805-1
title	Analysis and performance of fiber composites
title_auth	Analysis and performance of fiber composites
title_exact_search	Analysis and performance of fiber composites
title_exact_search_txtP	Analysis and performance of fiber composites
title_full	Analysis and performance of fiber composites Bhagwan D. Agarwal ; Lawrence J. Broutman ; K. Chandrashekhara
title_fullStr	Analysis and performance of fiber composites Bhagwan D. Agarwal ; Lawrence J. Broutman ; K. Chandrashekhara
title_full_unstemmed	Analysis and performance of fiber composites Bhagwan D. Agarwal ; Lawrence J. Broutman ; K. Chandrashekhara
title_short	Analysis and performance of fiber composites
title_sort	analysis and performance of fiber composites
topic	Fibrous composites Reinforced plastics Faserverbundwerkstoff (DE-588)4134341-4 gnd Verbundwerkstoff (DE-588)4062670-2 gnd Faserverstärkter Kunststoff (DE-588)4128805-1 gnd
topic_facet	Fibrous composites Reinforced plastics Faserverbundwerkstoff Verbundwerkstoff Faserverstärkter Kunststoff
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015010927&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT agarwalbhagwand analysisandperformanceoffibercomposites AT broutmanlawrencej analysisandperformanceoffibercomposites AT chandrashekharak analysisandperformanceoffibercomposites

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