Verfügbarkeit: Stress analysis of fiber reinforced composite materials

Stress analysis of fiber reinforced composite materials:

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Bibliographische Detailangaben
1. Verfasser:	Hyer, Michael W. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boston, Mass. [u.a.] WCB McGraw-Hill 1998
Schlagworte:	Composites Composites à fibres MATERIAIS COMPÓSITOS DE FIBRAS Stratifiés Composite materials Fibrous composites Laminated materials Faserverbundwerkstoff Spannungsanalyse Faserverstärkter Kunststoff
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVII, 627 S. Ill., graph. Darst.
ISBN:	0070167001

Internformat

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adam_text	STRESS ANALYSIS OF FIBER-REINFORCED COMPOSITE MATERIALS M. W. HYER VIRGINIA POLYTECHNIC INSTITUTE AND STATE UNIVERSITY CONTRIBUTIONS ON FIBERS, MATRICES, INTERFACES, AND MANUFACTURING BY S. R. WHITE UNIVERSITY OF ILLINOIS AT URBANA-CHAMPAIGN WCB MCGRAW-HILL BOSTON, MASSACHUSETTS BURR RIDGE, ILLINOIS DUBUQUE, IOWA MADISON,WISCONSIN NEWARK, NEWARK SAN FRANCISCO, CALIFORNIA ST. LOUIS, MISSOURI TABLE OF CONTENTS FIBER-REINFORCED COMPOSITE MATERIALS 1 1.1 BACKGROUND AND BRIEF OVERVIEW 1 1.2 UTILIZING THE STRENGTH OF FIBERS 3 1.3 LAMINAE AND LAMINATES 8 1.4 FIBERS 9 1.4.1 CARBON-BASED FIBERS / 1.4.2 GLASS-BASED FIBERS / 1.4.3 POLYMERIC FIBERS 1.5 MATRICES 22 7.5.7 THERMOSETS / 1.5.2 THERMOPLASTICS 1.6 FIBER SURFACE TREATMENTS 28 7.6.7 GRAPHITE FIBER TREATMENT / 1.6.2 GLASS FIBER TREATMENT / 1.6.3 POLYMER FIBER TREATMENT 1.7 SUMMARY 38 LINEAR ELASTIC STRESS-STRAIN CHARACTERISTICS OF FIBER-REINFORCED MATERIAL 39 2.1 STRESSES AND DEFORMATIONS IN FIBER-REINFORCED MATERIALS 40 2.2 MAXWELL-BETTI RECIPROCAL THEOREM 50 2.3 RELATIONSHIPS AMONG MATERIAL PROPERTIES 52 2.4 TYPICAL MATERIAL PROPERTIES 58 2.5 IMPORTANT INTERPRETATION OF STRESS-STRAIN RELATIONS 61 2.6 FREE THERMAL STRAINS 69 2.7 STRESS-STRAIN RELATIONS, INCLUDING THE EFFECTS OF FREE THERMAL STRAINS 73 2.8 STRESS-STRAIN RELATIONS, INCLUDING THE EFFECTS OF FREE MOISTURE STRAINS 78 2.9 SUMMARY 81 PREDICTION OF ENGINEERING PROPERTIES USING MICROMECHANICS 83 3.1 BACKGROUND 84 3.2 FINITE-ELEMENT RESULTS: SQUARE- AND HEXAGONAL- PACKED ARRAY MODELS 85 3.2.1 MATERIAL PROPERTIES OF THE FIBER AND MATRIX / 3.2.2 THERMAL EFFECTS AND DETERMINATION OF THERMAL EXPANSION COEFFICIENTS A. AND A.I / 3.2.3 TENSION IN THE FIBER DIRECTION RECHNISCHE UNIVERSITAT DARMSTADT XI K ^ KONRUFCT^ WCHTB.II UND BAUWEISEN XII CONTENTS AND THE DETERMINATION OF EXTENSIONAL MODULUS E X AND POISSON S RATIOS V 2ANDV I / 3.2.4 TRANSVERSE TENSILE LOADING AND DETERMINATION OF EXTENSIONAL MODULUS E 2 ANDPOISSON S RATIOS V21 ANDV^I / 3.2.5 TRANSVERSE SHEAR LOADING AND DETERMINATION OF SHEAR MODULUS G23 3.3 THEORY OF ELASTICITY RESULTS: CONCENTRIC CYLINDER MODELS 110 3.3.1 FIBER-DIRECTION TENSION / 3.3.2 AXIAL SHEAR 3.4 STRENGTH-OF-MATERIALS RESULTS 125 3.4.1 MODEL FOR EYANDVU / 3.4.2 MODELS FOR E 2 / 3.4.3 MODEL FOR GYI I 3.4.4 MODEL FOR A^ AND A 2 3.5 SUMMARY 145 THE PLANE-STRESS ASSUMPTION 148 4.1 STRESS-STRAIN RELATIONS FOR PLANE STRESS 151 4.2 IMPORTANT INTERPRETATION OF STRESS-STRAIN RELATIONS REVISITED 155 4.3 NUMERICAL RESULTS FOR THE PLANE-STRESS CONDITION 155 4.4 PLANE-STRESS STRESS-STRAIN RELATIONS AND THE EFFECTS OF FREE THERMAL AND FREE MOISTURE STRAINS 157 PLANE-STRESS STRESS-STRAIN RELATIONS IN A GLOBAL COORDINATE SYSTEM 161 5.1 TRANSFORMATION RELATIONS 162 5.2 TRANSFORMED REDUCED COMPLIANCE 167 5.3 TRANSFORMED REDUCED STIFFNESSES 181 5.4 ENGINEERING PROPERTIES IN A GLOBAL COORDINATE SYSTEM 191 5.5 COEFFICIENTS OF MUTUAL INFLUENCE 196 5.6 FREE THERMAL AND FREE MOISTURE STRAINS 198 5.7 PLANE-STRESS STRESS-STRAIN RELATIONS AND THE EFFECTS OF FREE THERMAL AND FREE MOISTURE STRAINS: GLOBAL COORDINATE SYSTEM 202 5.8 SUMMARY 211 CLASSICAL LAMINATION THEORY: THE KIRCHHOFF HYPOTHESIS 212 6.1 LAMINATE NOMENCLATURE 214 6.2 LAMINATE STRAINS AND DISPLACEMENTS: THE KIRCHHOFF HYPOTHESIS 217 CONTENTS XIII 6.3 IMPLICATIONS OF THE KIRCHHOFF HYPOTHESIS 221 6.4 LAMINATE STRAINS 224 6.5 LAMINATE STRESSES 228 6.6 STRESS DISTRIBUTIONS THROUGH THE THICKNESS 229 6.6.7 CUT EXAMPLE 1: [0/90] S LAMINATE SUBJECTED TO KNOWN EJ/ 6.6.2 CLTEXAMPLE 2: [0/90] S LAMINATE SUBJECTED TO KNOWN K 6.7 FORCE AND MOMENT RESULTANTS 244 6.8 FURTHER EXAMPLES 252 6.8.7 CLT EXAMPLE 3: [ 30/0] S LAMINATE SUBJECTED TO KNOWN E X / 6.8.2 CLT EXAMPLE 4: [ 30/0] S LAMINATE SUBJECTED TO KNOWN K? / 6.8.3 CLT EXAMPLE 5: [ 30/0] T LAMINATE SUBJECTED TO KNOWN / 6.8.4 A NOTE ON THE KIRCHHOFF HYPOTHESIS 7 CLASSICAL LAMINATION THEORY: LAMINATE STIFFNESS MATRIX 276 7.1 FORMAL DEFINITION OF FORCE AND MOMENT RESULTANTS 277 7.2 LAMINATE STIFFNESS: THE ABD MATRIX 279 7.3 CLASSIFICATION OF LAMINATES AND THEIR EFFECT ON THE ABD MATRIX 296 7.3.1 SYMMETRIC LAMINATES / 7.3.2 BALANCED LAMINATES / 7.3.3 SYMMETRIC BALANCED LAMINATES / 7.3.4 CROSS-PLY LAMINATES / 7.3.5 SYMMETRIC CROSS-PLY LAMINATES / 7.3.6 SINGLE ISOTROPIC LAYER 7.4 REFERENCE SURFACE STRAINS AND CURVATURES OF EXAMPLE LAMINATES 303 7.5 COMMENTS 305 7.6 ELASTIC COUPLINGS 305 7.6.1 INFLUENCE OF DIG AND D 2 6 I 7.6.2 INFLUENCE OF A^ AND A 2 F, I 7.6.3 INFLUENCE OF THE BY 7.7 EFFECTIVE ENGINEERING PROPERTIES OF A LAMINATE 324 7.8 SUMMARY 328 8 CLASSICAL LAMINATION THEORY: ADDITIONAL EXAMPLES 330 8.1 CLT EXAMPLE 6: [0/90] S LAMINATE SUBJECTED TO KNOWN A^ * COUNTERPART TO CLT EXAMPLE 1 331 8.2 CLT EXAMPLE 7: [30/0] 5 LAMINATE SUBJECTED TO KNOWN N X * COUNTERPART TO CLT EXAMPLE 3 336 8.3 CLT EXAMPLE 8: [30/0] S LAMINATE SUBJECTED TO KNOWN M X * COUNTERPART TO CLT EXAMPLE 4 341 8.4 SUMMARY 347 XIV CONTENTS 9 FAILURE THEORIES FOR FIBER-REINFORCED MATERIALS: MAXIMUM STRESS CRITERION 348 9.1 MAXIMUM STRESS FAILURE CRITERION 355 9.2 FAILURE EXAMPLE 1: TUBE WITH AXIAL LOAD* MAXIMUM STRESS CRITERION 357 9.3 FAILURE EXAMPLE 2: TUBE IN TORSIONMAXIMUM STRESS CRITERION 364 9.4 FAILURE EXAMPLE 3: TUBE WITH COMBINED LOAD MAXIMUM STRESS CRITERION 370 9.5 FAILURE EXAMPLE 4: [0/90]$ LAMINATE SUBJECTED TO N X MAXIMUM STRESS CRITERION 379 9.6 FAILURE EXAMPLE 5: [ 30/0] S LAMINATE SUBJECTED TON X MAXIMUM STRESS CRITERION 381 9.7 FAILURE EXAMPLE 6: [ 30/0] S LAMINATE SUBJECTED TOM X MAXIMUM STRESS CRITERION 383 9.8 SUMMARY 385 10 FAILURE THEORIES FOR FIBER-REINFORCED MATERIALS: THE TSAI-WU CRITERION 387 10.1 DETERMINATION OF THE CONSTANTS 389 10.2 FAILURE EXAMPLE 7: TUBE WITH AXIAL LOADTSAI-WU CRITERION - 399 10.3 FAILURE EXAMPLE 8: TUBE IN TORSIONTSAI-WU CRITERION 404 10.4 FAILURE EXAMPLE 9: TUBE WITH COMBINED LOAD* TSAI-WU CRITERION 406 10.5 FAILURE EXAMPLE 10: [0/90] S LAMINATE SUBJECTED TO N X * TSAI-WU CRITERION 412 10.6 FAILURE EXAMPLE 11: [ 30/0] S LAMINATE SUBJECTED TON X TSAI-WU CRITERION 415 10.7 FAILURE EXAMPLE 12: [ 30/0] S LAMINATE SUBJECTED TO M X TSAI-WU CRITERION 417 10.8 SUMMARY 418 11 ENVIRONMENTALLY INDUCED STRESSES IN LAMINATES 420 11.1 LAMINATE RESPONSE 420 11.1.1 DISPLACEMENTS AND STRAINS / 11.1.2 STRESSES 11.2 EXAMPLE S OF LAMINATE RESPONSE 423 77.2.7 CLT EXAMPLE 9: [0/90] S LAMINATE SUBJECTED TO KNOWN E X AND KNOWN AT / 11.2.2 CLT EXAMPLE 10: [30/0] S LAMINATE SUBJECTED TO KNOWN K X AND KNOWN AT CONTENTS XV 11.3 FORCE AND MOMENT RESULTANTS IN EXAMPLES 434 77.3.7 STRESS RESULTANT CALCULATION FOR CLT EXAMPLE 9: [0/90] S LAMINATE SUBJECTED TO KNOWN E X AND KNOWN AT / 11.3.2 STRESS RESULTANT CALCULATION FOR CLT EXAMPLE 10: [ 30/0]S LAMINATE SUBJECTED TO KNOWN K AND KNOWN AT 11.4 DEFINITION OF THERMAL FORCE AND MOMENT RESULTANTS 439 11.5 DEFINITIONS OF UNIT THERMAL FORCE AND MOMENT RESULTANTS 444 11.6 THE EFFECT OF LAMINATE CLASSIFICATION ON THE UNIT THERMAL FORCE AND MOMENT RESULTANTS 447 77.6.7 SYMMETRIC LAMINATES / 11.6.2 BALANCED LAMINATES / 11.6.3 SYMMETRIC BALANCED LAMINATES / 11.6.4 CROSS-PLY LAMINATES / 11.6.5 SYMMETRIC CROSS-PLY LAMINATES / 11.6.6 SINGLE ISOTROPIC LAYER 11.7 FREE THERMAL RESPONSE OF LAMINATES 449 11.7.1 EQUATIONS GOVERNING FREE THERMAL RESPONSE OF LAMINATES / 11.7.2 LAMINATE COEFFICIENTS OF THERMAL EXPANSION 11.8 EXAMPLES OF LAMINATE FREE THERMAL RESPONSE 453 77.5.7 CLT EXAMPLE 11: [0/90] S LAMINATE SUBJECTED TO A KNOWN AT / 11.8.2 CLT EXAMPLE 12: [ 30/0] S LAMINATE SUBJECTED TO A KNOWN AT / 11.8.3 CLT EXAMPLE 13: [ 30/0] T LAMINATE SUBJECTED TO A KNOWN AT / 11.8.4 CLT EXAMPLE 14: [ 30/0]S LAMINATE SUBJECTED TO A KNOWN AM 11.9 RESPONSE DUE TO STRESS RESULTANTS AND A TEMPERATURE CHANGE 470 77.9.7 CLT EXAMPLE 15: [0/90] S LAMINATE SUBJECTED TO KNOWN N X AND KNOWN AT / 11.9.2 CLT EXAMPLE 16: [ 30/0]S LAMINATE SUBJECTED TO KNOWN N X AND KNOWN AT / 11.9.3 CLT EXAMPLE 17: [ 30/0] S LAMINATE SUBJECTED TO KNOWN M X AND KNOWN AT / 11.9.4 CLT EXAMPLE 18: [ 30/0]S LAMINATE SUBJECTED TO KNOWN N X , KNOWN AT, AND KNOWN AM 11.10 INFLUENCE OF THERMAL EFFECTS ON FAILURE: THE MAXIMUM STRESS CRITERION 486 77.70.7 FAILURE EXAMPLE 13: [0/90] S LAMINATE SUBJECTED TO N X AND KNOWN AT / 11.10.2 FAILURE EXAMPLE 14: [ 30/0] S LAMINATE SUBJECTED TO N X AND KNOWN AT / 11.10.3 FAILURE EXAMPLE 15: [ 30/0] S LAMINATE SUBJECTED TO M X AND KNOWN AT 11.11 INFLUENCE OF THERMAL EFFECTS ON FAILURE: THE TSAI-WU CRITERION 493 77.77.7 FAILURE EXAMPLE 16: [0/90] S LAMINATE SUBJECTED TO N X AND KNOWN AT / 11.11.2 FAILURE EXAMPLE 17: XVI CONTENTS [ 30/OJS LAMINATE SUBJECTED TO N X AND KNOWN AT / 11.11.3 FAILURE EXAMPLE 18: [ 30/0] S LAMINATE SUBJECTED TO M X AND KNOWN AT 11.12 SUMMARY 500 12 THROUGH-THICKNESS LAMINATE STRAINS 502 12.1 THICKNESS CHANGE OF A LAMINATE, NO FREE THERMAL OR MOISTURE STRAIN EFFECTS 503 12.2 THROUGH-THICKNESS LAMINATE POISSON S RATIOS 505 12.3 THICKNESS CHANGE OF A LAMINATE DUE TO FREE THERMAL STRAIN EFFECTS 509 12.4 THROUGH-THICKNESS LAMINATE COEFFICIENT OF THERMAL EXPANSION 511 12.5 SUMMARY 513 13 INTRODUCTION TO FIBER-REINFORCED LAMINATED PLATES 514 13.1 EQUATIONS GOVERNING PLATE BEHAVIOR 515 13.2 GOVERNING CONDITIONS IN TERMS OF DISPLACEMENTS 527 13.3 SIMPLIFICATIONS TO THE GOVERNING EQUATIONS 533 73.3.7 SYMMETRIC LAMINATES / 13.3.2 SYMMETRIC BALANCED LAMINATES / 13.3.3 SYMMETRIC CROSS-PLY LAMINATES / 13.3.4 ISOTROPIC PLATES 13.4 PLATE EXAMPLE 1: A LONG [0/90] S PLATE 543 73.4.7 SOLUTION OF GOVERNING DIFFERENTIAL EQUATIONS / 13.4.2 APPLICATION OF BOUNDARY CONDITIONS 13.5 PLATE EXAMPLE 2: A LONG [0 2 /90 2 ] R PLATE 550 73.5.7 SOLUTION OF GOVERNING DIFFERENTIAL EQUATIONS / 13.5.2 APPLICATION OF BOUNDARY CONDITIONS 13.6 PLATE EXAMPLE 3: A LONG [ 30/0] S PLATE 556 13.7 NUMERICAL RESULTS FOR PLATE EXAMPLES 1,2, AND 3 558 73.7.7 CROSS-PLY PLATES / 13.7.2 [30/0] S PLATE 13.8 PLATE EXAMPLE 4: A SQUARE, UNIFORMLY LOADED, CROSS-PLY PLATE 566 13.9 SUMMARY 574 14 APPENDIX: MANUFACTURING COMPOSITE LAMINATES 578 14.1 BACKGROUND AND OVERVIEW 578 14.2 FABRICATION 579 74.2.7 TOOLING AND SPECIALTY MATERIALS / 14.2.2 HAND LAY-UP CONTENTS XVII 14.3 PROCESSING 594 74.3.7 OVERALL CONSIDERATIONS / 14.3.2 AUTOCLAVE CURING 14.4 MANUFACTURING BY OTHER METHODS 598 74.4.7 FIBER-ONLY PREFORMS / 14.4.2 OTHER COMBINED FIBER-MATRIX PREFORMS 14.5 FORMING STRUCTURAL SHAPES 602 74.5.7 WET LAY-UP AND SPRAY-UP / 14.5.2 FILAMENT WINDING / 14.5.3 PULTRUSION / 14.5.4 RESIN TRANSFER MOLDING 14.6 NONAUTOCLAVE CURING 610 74.6.7 OVEN CURING / 14.6.2 HOT PRESSING 14.7 MANUFACTURING DEFECTS 611
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spelling	Hyer, Michael W. Verfasser aut Stress analysis of fiber reinforced composite materials M. W. Hyer Boston, Mass. [u.a.] WCB McGraw-Hill 1998 XVII, 627 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Composites Composites à fibres MATERIAIS COMPÓSITOS DE FIBRAS larpcal Stratifiés Composite materials Fibrous composites Laminated materials Faserverbundwerkstoff (DE-588)4134341-4 gnd rswk-swf Spannungsanalyse (DE-588)4055995-6 gnd rswk-swf Faserverstärkter Kunststoff (DE-588)4128805-1 gnd rswk-swf Faserverbundwerkstoff (DE-588)4134341-4 s DE-604 Spannungsanalyse (DE-588)4055995-6 s Faserverstärkter Kunststoff (DE-588)4128805-1 s HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009039468&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Hyer, Michael W. Stress analysis of fiber reinforced composite materials Composites Composites à fibres MATERIAIS COMPÓSITOS DE FIBRAS larpcal Stratifiés Composite materials Fibrous composites Laminated materials Faserverbundwerkstoff (DE-588)4134341-4 gnd Spannungsanalyse (DE-588)4055995-6 gnd Faserverstärkter Kunststoff (DE-588)4128805-1 gnd
subject_GND	(DE-588)4134341-4 (DE-588)4055995-6 (DE-588)4128805-1
title	Stress analysis of fiber reinforced composite materials
title_auth	Stress analysis of fiber reinforced composite materials
title_exact_search	Stress analysis of fiber reinforced composite materials
title_full	Stress analysis of fiber reinforced composite materials M. W. Hyer
title_fullStr	Stress analysis of fiber reinforced composite materials M. W. Hyer
title_full_unstemmed	Stress analysis of fiber reinforced composite materials M. W. Hyer
title_short	Stress analysis of fiber reinforced composite materials
title_sort	stress analysis of fiber reinforced composite materials
topic	Composites Composites à fibres MATERIAIS COMPÓSITOS DE FIBRAS larpcal Stratifiés Composite materials Fibrous composites Laminated materials Faserverbundwerkstoff (DE-588)4134341-4 gnd Spannungsanalyse (DE-588)4055995-6 gnd Faserverstärkter Kunststoff (DE-588)4128805-1 gnd
topic_facet	Composites Composites à fibres MATERIAIS COMPÓSITOS DE FIBRAS Stratifiés Composite materials Fibrous composites Laminated materials Faserverbundwerkstoff Spannungsanalyse Faserverstärkter Kunststoff
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009039468&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT hyermichaelw stressanalysisoffiberreinforcedcompositematerials

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