Fiber-reinforced composites: materials, manufacturing, and design
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| Format: | Buch |
| Sprache: | English |
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Boca Raton, FL [u.a.]
CRC Press
2008
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| Ausgabe: | 3. ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XVII, 619 S. Ill., graph. Darst. |
| ISBN: | 9780849342059 |
Internformat
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| 245 | 1 | 0 | |a Fiber-reinforced composites |b materials, manufacturing, and design |c P. K. Mallick |
| 246 | 1 | 3 | |a Fiber reinforced composites |
| 250 | |a 3. ed. | ||
| 264 | 1 | |a Boca Raton, FL [u.a.] |b CRC Press |c 2008 | |
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Datensatz im Suchindex
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| adam_text | THIRD 6DITION FLSS*SS- R*INFOSSC*D COMPOSITCS MATERIALS, MANUFACTURING, AND
DESIGN P.K. MOLLKK DEPARTMENT OF MECHANICAL *NGINEERING UNIVERSITY OF
MICHIGAN-DEARBORN DEARBORN, MICHIGAN @ CRC PRESS TAYLOR &. FRANCIS GROUP
BOCA RATON LONDON NEW YORK CRC PRESS IS AN IMPRINT OF THE TAYLOR &
FRANCIS GROUP, AN INFORMA BUSINESS CONTENTS PREFACE TO THE THIRD EDITION
XV AUTHOR XVII CHAPTER 1 INTRODUCTION 1 1.1 DEFINITION 1 1.2 GENERAL
CHARACTERISTICS 2 1.3 APPLICATIONS 6 1.3.1 AIRCRAFT AND MILITARY
APPLICATIONS : 6 1.3.2 SPACE APPLICATIONS 12 1.3.3 AUTOMOTIVE
APPLICATIONS 12 1.3.4 SPORTING GOODS APPLICATIONS 18 1.3.5 MARINE
APPLICATIONS 20 1.3.6 INFRASTRUCTURE 21 1.4 MATERIAL SELECTION PROCESS
23 REFERENCES 26 PROBLEMS 27 CHAPTER 2 MATERIALS 31 2.1 FIBERS 33 2.1.1
GLASS FIBERS 42 2.1.2 CARBON FIBERS 46 2.1.3 ARAMID FIBERS 54 2.1.4
EXTENDED CHAIN POLYETHYLENE FIBERS 55 2.1.5 NATURAL FIBERS 56 2.1.6
BORON FIBERS 57 2.1.7 CERAMIC FIBERS 58 2.2 MATRIX 60 2.2.1 POLYMER
MATRIX 60 2.2.1.1 THERMOPLASTIC AND THERMOSET POLYMERS 62 2.2.1.2 UNIQUE
CHARACTERISTICS OF POLYMERIE SOLIDS 63 2.2.1.3 CREEP AND STRESS
RELAXATION 65 2.2.1.4 HEAT DEFLECTION TEMPERATURE 65 2.2.1.5 SELECTION
OF MATRIX: THERMOSETS VS. THERMOPLASTICS 67 VII VIII 2.2.2 METAL MATRIX
69 2.2.3 CERAMIC MATRIX 70 2.3 THERMOSET MATRIX 71 2.3.1 EPOXY 71 2.3.2
POLYESTER 76 2.3.3 VINYL ESTER 81 2.3.4 BISMALEIMIDES AND OTHER
THERMOSET POLYIMIDES 83 2.3.5 CYANATE ESTER 84 2.4 THERMOPLASTIC MATRIX
85 2.4.1 POLYETHER ETHER KETONE 85 2.4.2 POLYPHENYLENE SULFIDE 87 2.4.3
POLYSULFONE 87 2.4.4 THERMOPLASTIC POLYIMIDES 88 2.5 FIBER SURFACE
TREATMENTS 89 2.5.1 GLASS FIBERS 89 2.5.2 CARBON FIBERS 93 2.5.3 KEVLAR
FIBERS 94 2.6 FILLERS AND OTHER ADDITIVES 94 2.7 INCORPORATION OF FIBERS
INTO MATRIX 95 2.7.1 PREPREGS 96 2.7.2 SHEET-MOLDING COMPOUNDS 96 2.7.3
INCORPORATION OF FIBERS INTO THERMOPLASTIC RESINS 99 2.8 FIBER CONTENT,
DENSITY, AND VOID CONTENT 102 2.9 FIBER ARCHITECTURE 105 REFERENCES 108
PROBLEMS 110 CHAPTER 3 MECHANICS 119 3.1 FIBER-MATRIX INTERACTIONS IN A
UNIDIRECTIONAL LAMINA 120 3.1.1 LONGITUDINAL TENSILE LOADING 120 3.1.1.1
UNIDIRECTIONAL CONTINUOUS FIBERS 120 3.1.1.2 UNIDIRECTIONAL
DISCONTINUOUS FIBERS 125 3.1.1.3 MICROFAILURE MODES IN LONGITUDINAL
TENSION 134 3.1.2 TRANSVERSE TENSILE LOADING 138 3.1.3 LONGITUDINAL
COMPRESSIVE LOADING 144 3.1.4 TRANSVERSE COMPRESSIVE LOADING 146 3.2
CHARACTERISTICS OF A FIBER-REINFORCED LAMINA 147 3.2.1 FUNDAMENTALS 147
3.2.1.1 COORDINATE AXES 147 3.2.1.2 NOTATIONS 148 3.2.1.3 STRESS AND
STRAIN TRANSFORMATIONS IN A THIN LAMINA UNDER PLANE STRESS 150 3.2.1.4
ISOTROPIE, ANISOTROPIE, AND ORTHOTROPIE MATERIALS.... 151 IX 3.2.2
ELASTIC PROPERTIES OF A LAMINA 155 3.2.2.1 UNIDIRECTIONAL CONTINUOUS
FIBER 0 LAMINA 155 3.2.2.2 UNIDIRECTIONAL CONTINUOUS FIBER ANGLE-PLY
LAMINA 160 3.2.2.3 UNIDIRECTIONAL DISCONTINUOUS FIBER 0 LAMINA 161
3.2.2.4 RANDOMLY ORIENTED DISCONTINUOUS FIBER LAMINA 163 3.2.3
COEFFICIENTS OF LINEAR THERMAL EXPANSION 166 3.2.4 STRESS-STRAIN
RELATIONSHIPS FOR A THIN LAMINA 167 3.2.4.1 ISOTROPIE LAMINA 167 3.2.4.2
ORTHOTROPIC LAMINA 168 3.2.5 COMPLIANCE AND STIFFNESS MATRICES 173
3.2.5.1 ISOTROPIE LAMINA 173 3.2.5.2 SPECIALLY ORTHOTROPIC LAMINA (0 =
0 OR 90) 174 3.2.5.3 GENERAL ORTHOTROPIC LAMINA (0 / 0 OR 90) 175
3.3 LAMINATED STRUCTURE 180 3.3.1 FROM LAMINA TO LAMINATE 180 3.3.2
LAMINATION THEORY 183 3.3.2.1 ASSUMPTIONS 183 3.3.2.2 LAMINATE STRAINS
183 3.3.2.3 LAMINATE FORCES AND MOMENTS 184 3.3.2.4 ELEMENTS IN
STIFFNESS MATRICES 186 3.3.2.5 MIDPLANE STRAINS AND CURVATURES 194
3.3.2.6 LAMINA STRAINS AND STRESSES DUE TO APPLIED LOADS 200 3.3.2.7
THERMAL STRAINS AND STRESSES 203 3.4 INTERLAMINAR STRESSES 211
REFERENCES 217 PROBLEMS 218 CHAPTER 4 PERFORMANCE 233 4.1 STATIC
MECHANICAL PROPERTIES 233 4.1.1 TENSILE PROPERTIES 233 4.1.1.1 TEST
METHOD AND ANALYSIS 233 4.1.1.2 UNIDIRECTIONAL LAMINATES 238 4.1.1.3
CROSS-PLY LAMINATES 239 4.1.1.4 MULTIDIRECTIONAL LAMINATES 242 4.1.1.5
WOVEN FABRIC LAMINATES 245 4.1.1.6 SHEET-MOLDING COMPOUNDS 248 4.1.1.7
INTERPLY HYBRID LAMINATES 249 4.1.2 COMPRESSIVE PROPERTIES 253 4.1.3
FLEXURAL PROPERTIES 257 4.1.4 IN-PLANE SHEAR PROPERTIES 261 4.1.5
INTERLAMINAR SHEAR STRENGTH 267 X 4.2 FATIGUE PROPERTIES 269 4.2.1
FATIGUE TEST METHODS 270 4.2.2 FATIGUE PERFORMANCE 273 4.2.2.1
TENSION-TENSION FATIGUE 273 4.2.2.2 FLEXURAL FATIGUE 276 4.2.2.3
INTERLAMINAR SHEAR FATIGUE 278 4.2.2.4 TORSIONAL FATIGUE 279 4.2.2.5
COMPRESSIVE FATIGUE 279 4.2.3 VARIABLES IN FATIGUE PERFORMANCE 281
4.2.3.1 EFFECT OF MATERIAL VARIABLES 281 4.2.3.2 EFFECT OF MEAN STRESS
283 4.2.3.3 EFFECT OF FREQUENCY 286 4.2.3.4 EFFECT OF NOTCHES 288 4.2.4
FATIGUE DAMAGE MECHANISMS IN TENSION- TENSION FATIGUE TESTS 290 4.2.4.1
CONTINUOUS FIBER 0 LAMINATES 290 4.2.4.2 CROSS-PLY AND OTHER
MULTIDIRECTIONAL CONTINUOUS FIBER LAMINATES 292 4.2.4.3 SMC-R LAMINATES
294 4.2.5 FATIGUE DAMAGE AND ITS CONSEQUENCES 295 4.2.6 POSTFATIGUE
RESIDUAL STRENGTH 301 4.3 IMPACT PROPERTIES 303 4.3.1 CHARPY, IZOD, AND
DROP-WEIGHT IMPACT TEST 304 4.3.2 FRACTURE INITIATION AND PROPAGATION
ENERGIES 307 4.3.3 MATERIAL PARAMETERS 309 4.3.4 LOW-ENERGY IMPACT TESTS
313 4.3.5 RESIDUAL STRENGTH AFTER IMPACT 316 4.3.6
COMPRESSION-AFTER-IMPACT TEST 317 4.4 OTHER PROPERTIES 318 4.4.1
PIN-BEARING STRENGTH 318 4.4.2 DAMPING PROPERTIES 321 4.4.3 COEFFICIENT
OF THERMAL EXPANSION 321 4.4.4 THERMAL CONDUCTIVITY 324 4.5
ENVIRONMENTAL EFFECTS 325 4.5.1 ELEVATED TEMPERATURE 325 4.5.2 MOISTURE
327 4.5.2.1 MOISTURE CONCENTRATION 328 4.5.2.2 PHYSICAL EFFECTS OF
MOISTURE ABSORPTION 332 4.5.2.3 CHANGES IN PERFORMANCE DUE TO MOISTURE
AND TEMPERATURE 333 4.6 LONG-TERM PROPERTIES 337 4.6.1 CREEP 337 4.6.1.1
CREEP DATA 338 XI 4.6.1.2 LONG-TERM CREEP BEHAVIOR 339 4.6.1.3 SCHAPERY
CREEP AND RECOVERY EQUATIONS 342 4.6.2 STRESS RUPTURE 343 4.7 FRACTURE
BEHAVIOR AND DAMAGE TOLERANCE 345 4.7.1 CRACK GROWTH RESISTANCE 345
4.7.2 DELAMINATION GROWTH RESISTANCE 349 4.7.2.1 MODE I DELAMINATION 350
4.7.2.2 MODE II DELAMINATION 352 4.7.3 METHODS OF IMPROVING DAMAGE
TOLERANCE 354 4.7.3.1 MATRIX TOUGHNESS 354 4.7.3.2 INTERLEAVING 355
4.7.3.3 STACKING SEQUENCE 356 4.7.3.4 INTERPLY HYBRIDIZATION 356 4.7.3.5
THROUGH-THE-THICKNESS REINFORCEMENT 356 4.7.3.6 PLY TERMINATION 357
4.7.3.7 EDGE MODIFICATION 357 REFERENCES 358 PROBLEMS 364 CHAPTER 5
MANUFACTURING 377 5.1 FUNDAMENTALS 377 5.1.1 DEGREEOF CURE 378 5.1.2
VISCOSITY 381 5.1.3 RESINFLOW 384 5.1.4 CONSOLIDATION 386 5.1.5 GEL-TIME
TEST 387 5.1.6 SHRINKAGE 388 5.1.7 VOIDS 389 5.2 BAG-MOLDING PROCESS 389
5.3 COMPRESSION MOLDING 394 5.4 PULTRUSION 403 5.5 FILAMENT WINDING 408
5.6 LIQUID COMPOSITE MOLDING PROCESSES 416 5.6.1 RESIN TRANSFER MOLDING
416 5.6.2 STRUCTURAL REACTION INJECTION MOLDING 418 5.7 OTHER
MANUFACTURING PROCESSES 420 5.7.1 RESIN FILM INFUSION 420 5.7.2 ELASTIC
RESERVOIR MOLDING 421 5.7.3 TUBEROLLING 422 5.8 MANUFACTURING PROCESSES
FOR THERMOPLASTIC MATRIX COMPOSITES 422 5.9 QUALITY INSPECTION METHODS
427 5.9.1 RAW MATERIALS 427 5.9.2 CURE CYCLE MONITORING 428 XII 5.9.3
CURED COMPOSITE PART 429 5.9.3.1 RADIOGRAPHY 430 5.9.3.2 ULTRASONIC 430
5.9.3.3 ACOUSTIC EMISSION 433 5.9.3.4 ACOUSTO-ULTRASONIC 435 5.9.3.5
THERMOGRAPHY 436 5.10 COSTLSSUES 438 REFERENCES 440 PROBLEMS 442 CHAPTER
6 DESIGN 451 6.1 FAILURE PREDICTION 451 6.1.1 FAILURE PREDICTION IN A
UNIDIRECTIONAL LAMINA 451 6.1.1.1 MAXIMUM STRESS THEORY 453 6.1.1.2
MAXIMUM STRAIN THEORY 456 6.1.1.3 AZZI-TSAI-HILL THEORY 459 6.1.1.4
TSAI-WU FAILURE THEORY 460 6.1.2 FAILURE PREDICTION FOR UNNOTCHED
LAMINATES 463 6.1.2.1 CONSEQUENCE OF LAMINA FAILURE 464 6.1.2.2 ULTIMATE
FAILURE OF A LAMINATE 466 6.1.3 FAILURE PREDICTION IN RANDOM FIBER
LAMINATES 467 6.1.4 FAILURE PREDICTION IN NOTCHED LAMINATES 468 6.1.4.1
STRESS CONCENTRATION FACTOR 468 6.1.4.2 HOLE SIZE EFFECT ON STRENGTH 469
6.1.5 FAILURE PREDICTION FOR DELAMINATION INITIATION 474 6.2 LAMINATE
DESIGN CONSIDERATIONS 475 6.2.1 DESIGN PHILOSOPHY 475 6.2.2 DESIGN
CRITERIA 476 6.2.3 DESIGN ALLOWABLES 478 6.2.4 GENERAL DESIGN GUIDELINES
481 6.2.4.1 LAMINATE DESIGN FOR STRENGTH 482 6.2.4.2 LAMINATE DESIGN FOR
STIFFNESS 484 6.2.5 FINITE ELEMENT ANALYSIS 485 6.3 JOINT DESIGN 486
6.3.1 MECHANICAL JOINTS 487 6.3.2 BONDED JOINTS 490 6.4 DESIGN EXAMPLES
492 6.4.1 DESIGN OF A TENSION MEMBER 492 6.4.2 DESIGN OF A COMPRESSION
MEMBER 494 6.4.3 DESIGN OF A BEAM 496 6.4.4 DESIGN OF A TORSIONAL MEMBER
501 6.5 APPLICATION EXAMPLES 504 XIII 6.5.1 INBOARD AILERONS ON LOCKHEED
L-1011 AIRCRAFT 504 6.5.2 COMPOSITE PRESSURE VESSELS 507 6.5.3 CORVETTE
LEAF SPRINGS 509 6.5.4 TUBES FOR SPACE STATION TRUSS STRUCTURE 511
REFERENCES 516 PROBLEMS 518 CHAPTER 7 METAL, CERAMIC, AND CARBON MATRIX
COMPOSITES 523 7.1 METAL MATRIX COMPOSITES 524 7.1.1 MECHANICAL
PROPERTIES 524 7.1.1.1 CONTINUOUS-FIBER MMC 526 7.1.1.2 DISCONTINUOUSLY
REINFORCED MMC 528 7.1.2 MANUFACTURING PROCESSES 533 7.1.2.1
CONTINUOUSLY REINFORCED MMC 533 7.1.2.2 DISCONTINUOUSLY REINFORCED MMC
534 7.2 CERAMIC MATRIX COMPOSITES 538 7.2.1 MICROMECHANICS 539 7.2.2
MECHANICAL PROPERTIES 542 7.2.2.1 GLASS MATRIX COMPOSITES 542 7.2.2.2
POLYCRYSTALLINE CERAMIC MATRIX 544 7.2.3 MANUFACTURING PROCESSES 545
7.2.3.1 POWDER CONSOLIDATION PROCESS 545 7.2.3.2 CHEMICAL PROCESSES 547
7.3 CARBON MATRIX COMPOSITES 548 REFERENCES 551 PROBLEMS , 553 CHAPTER 8
POLYMER NANOCOMPOSITES 557 8.1 NANOCLAY 557 8.2 CARBON NANOFIBERS 561
8.3 CARBON NANOTUBES 564 8.3.1 STRUCTURE 564 8.3.2 PRODUCTION OF CARBON
NANOTUBES 567 8.3.3 FUNCTIONALIZATION OF CARBON NANOTUBES 569 8.3.4
MECHANICAL PROPERTIES OF CARBON NANOTUBES 570 8.3.5 CARBON
NANOTUBE-POLYMER COMPOSITES 571 8.3.6 PROPERTIES OF CARBON
NANOTUBE-POLYMER COMPOSITES 572 REFERENCES 576 PROBLEMS 578 XIV
APPENDIXES A.L WOVEN FABRIC TERMINOLOGY 581 A.2 RESIDUAL STRESSES IN
FIBERS AND MATRIX IN A LAMINA DUE TO COOLING 583 REFERENCE 585 A.3
ALTERNATIVE EQUATIONS FOR THE ELASTIC AND THERMAL PROPERTIES OF A LAMINA
586 REFERENCES 586 A.4 HALPIN-TSAI EQUATIONS 587 REFERENCES 588 A.5
TYPICAL MECHANICAL PROPERTIES OF UNIDIRECTIONAL CONTINUOUS FIBER
COMPOSITES 589 A.6 PROPERTIES OF VARIOUS SMC COMPOSITES 590 A.7 FINITE
WIDTH CORRECTION FACTOR FOR ISOTROPIE PLATES 591 A.8 DETERMINATION OF
DESIGN ALLOWABLES 592 A.8.1 NORMAL DISTRIBUTION 592 A.8.2 WEIBULL
DISTRIBUTION 592 REFERENCE 593 A.9 TYPICAL MECHANICAL PROPERTIES OF
METAL MATRIX COMPOSITES 594 A.10 USEFUL REFERENCES 595 A.10.1 TEXT AND
REFERENCE BOOKS 595 A.10.2 LEADING JOURNALS ON COMPOSITE MATERIALS 596
A.10.3 PROFESSIONAL SOCIETIES ASSOCIATED WITH CONFERENCES AND
PUBLICATIONS ON COMPOSITE MATERIALS 596 A.LL LIST OF SELECTED COMPUTER
PROGRAMS 597 INDEX 599
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| adam_txt |
THIRD 6DITION FLSS*SS- R*INFOSSC*D COMPOSITCS MATERIALS, MANUFACTURING, AND
DESIGN P.K. MOLLKK DEPARTMENT OF MECHANICAL *NGINEERING UNIVERSITY OF
MICHIGAN-DEARBORN DEARBORN, MICHIGAN @ CRC PRESS TAYLOR &. FRANCIS GROUP
BOCA RATON LONDON NEW YORK CRC PRESS IS AN IMPRINT OF THE TAYLOR &
FRANCIS GROUP, AN INFORMA BUSINESS CONTENTS PREFACE TO THE THIRD EDITION
XV AUTHOR XVII CHAPTER 1 INTRODUCTION 1 1.1 DEFINITION 1 1.2 GENERAL
CHARACTERISTICS 2 1.3 APPLICATIONS 6 1.3.1 AIRCRAFT AND MILITARY
APPLICATIONS : 6 1.3.2 SPACE APPLICATIONS 12 1.3.3 AUTOMOTIVE
APPLICATIONS 12 1.3.4 SPORTING GOODS APPLICATIONS 18 1.3.5 MARINE
APPLICATIONS 20 1.3.6 INFRASTRUCTURE 21 1.4 MATERIAL SELECTION PROCESS
23 REFERENCES 26 PROBLEMS 27 CHAPTER 2 MATERIALS 31 2.1 FIBERS 33 2.1.1
GLASS FIBERS 42 2.1.2 CARBON FIBERS 46 2.1.3 ARAMID FIBERS 54 2.1.4
EXTENDED CHAIN POLYETHYLENE FIBERS 55 2.1.5 NATURAL FIBERS 56 2.1.6
BORON FIBERS 57 2.1.7 CERAMIC FIBERS 58 2.2 MATRIX 60 2.2.1 POLYMER
MATRIX 60 2.2.1.1 THERMOPLASTIC AND THERMOSET POLYMERS 62 2.2.1.2 UNIQUE
CHARACTERISTICS OF POLYMERIE SOLIDS 63 2.2.1.3 CREEP AND STRESS
RELAXATION 65 2.2.1.4 HEAT DEFLECTION TEMPERATURE 65 2.2.1.5 SELECTION
OF MATRIX: THERMOSETS VS. THERMOPLASTICS 67 VII VIII 2.2.2 METAL MATRIX
69 2.2.3 CERAMIC MATRIX 70 2.3 THERMOSET MATRIX 71 2.3.1 EPOXY 71 2.3.2
POLYESTER 76 2.3.3 VINYL ESTER 81 2.3.4 BISMALEIMIDES AND OTHER
THERMOSET POLYIMIDES 83 2.3.5 CYANATE ESTER 84 2.4 THERMOPLASTIC MATRIX
85 2.4.1 POLYETHER ETHER KETONE 85 2.4.2 POLYPHENYLENE SULFIDE 87 2.4.3
POLYSULFONE 87 2.4.4 THERMOPLASTIC POLYIMIDES 88 2.5 FIBER SURFACE
TREATMENTS 89 2.5.1 GLASS FIBERS 89 2.5.2 CARBON FIBERS 93 2.5.3 KEVLAR
FIBERS 94 2.6 FILLERS AND OTHER ADDITIVES 94 2.7 INCORPORATION OF FIBERS
INTO MATRIX 95 2.7.1 PREPREGS 96 2.7.2 SHEET-MOLDING COMPOUNDS 96 2.7.3
INCORPORATION OF FIBERS INTO THERMOPLASTIC RESINS 99 2.8 FIBER CONTENT,
DENSITY, AND VOID CONTENT 102 2.9 FIBER ARCHITECTURE 105 REFERENCES 108
PROBLEMS 110 CHAPTER 3 MECHANICS 119 3.1 FIBER-MATRIX INTERACTIONS IN A
UNIDIRECTIONAL LAMINA 120 3.1.1 LONGITUDINAL TENSILE LOADING 120 3.1.1.1
UNIDIRECTIONAL CONTINUOUS FIBERS 120 3.1.1.2 UNIDIRECTIONAL
DISCONTINUOUS FIBERS 125 3.1.1.3 MICROFAILURE MODES IN LONGITUDINAL
TENSION 134 3.1.2 TRANSVERSE TENSILE LOADING 138 3.1.3 LONGITUDINAL
COMPRESSIVE LOADING 144 3.1.4 TRANSVERSE COMPRESSIVE LOADING 146 3.2
CHARACTERISTICS OF A FIBER-REINFORCED LAMINA 147 3.2.1 FUNDAMENTALS 147
3.2.1.1 COORDINATE AXES 147 3.2.1.2 NOTATIONS 148 3.2.1.3 STRESS AND
STRAIN TRANSFORMATIONS IN A THIN LAMINA UNDER PLANE STRESS 150 3.2.1.4
ISOTROPIE, ANISOTROPIE, AND ORTHOTROPIE MATERIALS. 151 IX 3.2.2
ELASTIC PROPERTIES OF A LAMINA 155 3.2.2.1 UNIDIRECTIONAL CONTINUOUS
FIBER 0 LAMINA 155 3.2.2.2 UNIDIRECTIONAL CONTINUOUS FIBER ANGLE-PLY
LAMINA 160 3.2.2.3 UNIDIRECTIONAL DISCONTINUOUS FIBER 0 LAMINA 161
3.2.2.4 RANDOMLY ORIENTED DISCONTINUOUS FIBER LAMINA 163 3.2.3
COEFFICIENTS OF LINEAR THERMAL EXPANSION 166 3.2.4 STRESS-STRAIN
RELATIONSHIPS FOR A THIN LAMINA 167 3.2.4.1 ISOTROPIE LAMINA 167 3.2.4.2
ORTHOTROPIC LAMINA 168 3.2.5 COMPLIANCE AND STIFFNESS MATRICES 173
3.2.5.1 ISOTROPIE LAMINA 173 3.2.5.2 SPECIALLY ORTHOTROPIC LAMINA (0 =
0 OR 90) 174 3.2.5.3 GENERAL ORTHOTROPIC LAMINA (0 / 0 OR 90) 175
3.3 LAMINATED STRUCTURE 180 3.3.1 FROM LAMINA TO LAMINATE 180 3.3.2
LAMINATION THEORY 183 3.3.2.1 ASSUMPTIONS 183 3.3.2.2 LAMINATE STRAINS
183 3.3.2.3 LAMINATE FORCES AND MOMENTS 184 3.3.2.4 ELEMENTS IN
STIFFNESS MATRICES 186 3.3.2.5 MIDPLANE STRAINS AND CURVATURES 194
3.3.2.6 LAMINA STRAINS AND STRESSES DUE TO APPLIED LOADS 200 3.3.2.7
THERMAL STRAINS AND STRESSES 203 3.4 INTERLAMINAR STRESSES 211
REFERENCES 217 PROBLEMS 218 CHAPTER 4 PERFORMANCE 233 4.1 STATIC
MECHANICAL PROPERTIES 233 4.1.1 TENSILE PROPERTIES 233 4.1.1.1 TEST
METHOD AND ANALYSIS 233 4.1.1.2 UNIDIRECTIONAL LAMINATES 238 4.1.1.3
CROSS-PLY LAMINATES 239 4.1.1.4 MULTIDIRECTIONAL LAMINATES 242 4.1.1.5
WOVEN FABRIC LAMINATES 245 4.1.1.6 SHEET-MOLDING COMPOUNDS 248 4.1.1.7
INTERPLY HYBRID LAMINATES 249 4.1.2 COMPRESSIVE PROPERTIES 253 4.1.3
FLEXURAL PROPERTIES 257 4.1.4 IN-PLANE SHEAR PROPERTIES 261 4.1.5
INTERLAMINAR SHEAR STRENGTH 267 X 4.2 FATIGUE PROPERTIES 269 4.2.1
FATIGUE TEST METHODS 270 4.2.2 FATIGUE PERFORMANCE 273 4.2.2.1
TENSION-TENSION FATIGUE 273 4.2.2.2 FLEXURAL FATIGUE 276 4.2.2.3
INTERLAMINAR SHEAR FATIGUE 278 4.2.2.4 TORSIONAL FATIGUE 279 4.2.2.5
COMPRESSIVE FATIGUE 279 4.2.3 VARIABLES IN FATIGUE PERFORMANCE 281
4.2.3.1 EFFECT OF MATERIAL VARIABLES 281 4.2.3.2 EFFECT OF MEAN STRESS
283 4.2.3.3 EFFECT OF FREQUENCY 286 4.2.3.4 EFFECT OF NOTCHES 288 4.2.4
FATIGUE DAMAGE MECHANISMS IN TENSION- TENSION FATIGUE TESTS 290 4.2.4.1
CONTINUOUS FIBER 0 LAMINATES 290 4.2.4.2 CROSS-PLY AND OTHER
MULTIDIRECTIONAL CONTINUOUS FIBER LAMINATES 292 4.2.4.3 SMC-R LAMINATES
294 4.2.5 FATIGUE DAMAGE AND ITS CONSEQUENCES 295 4.2.6 POSTFATIGUE
RESIDUAL STRENGTH 301 4.3 IMPACT PROPERTIES 303 4.3.1 CHARPY, IZOD, AND
DROP-WEIGHT IMPACT TEST 304 4.3.2 FRACTURE INITIATION AND PROPAGATION
ENERGIES 307 4.3.3 MATERIAL PARAMETERS 309 4.3.4 LOW-ENERGY IMPACT TESTS
313 4.3.5 RESIDUAL STRENGTH AFTER IMPACT 316 4.3.6
COMPRESSION-AFTER-IMPACT TEST 317 4.4 OTHER PROPERTIES 318 4.4.1
PIN-BEARING STRENGTH 318 4.4.2 DAMPING PROPERTIES 321 4.4.3 COEFFICIENT
OF THERMAL EXPANSION 321 4.4.4 THERMAL CONDUCTIVITY 324 4.5
ENVIRONMENTAL EFFECTS 325 4.5.1 ELEVATED TEMPERATURE 325 4.5.2 MOISTURE
327 4.5.2.1 MOISTURE CONCENTRATION 328 4.5.2.2 PHYSICAL EFFECTS OF
MOISTURE ABSORPTION 332 4.5.2.3 CHANGES IN PERFORMANCE DUE TO MOISTURE
AND TEMPERATURE 333 4.6 LONG-TERM PROPERTIES 337 4.6.1 CREEP 337 4.6.1.1
CREEP DATA 338 XI 4.6.1.2 LONG-TERM CREEP BEHAVIOR 339 4.6.1.3 SCHAPERY
CREEP AND RECOVERY EQUATIONS 342 4.6.2 STRESS RUPTURE 343 4.7 FRACTURE
BEHAVIOR AND DAMAGE TOLERANCE 345 4.7.1 CRACK GROWTH RESISTANCE 345
4.7.2 DELAMINATION GROWTH RESISTANCE 349 4.7.2.1 MODE I DELAMINATION 350
4.7.2.2 MODE II DELAMINATION 352 4.7.3 METHODS OF IMPROVING DAMAGE
TOLERANCE 354 4.7.3.1 MATRIX TOUGHNESS 354 4.7.3.2 INTERLEAVING 355
4.7.3.3 STACKING SEQUENCE 356 4.7.3.4 INTERPLY HYBRIDIZATION 356 4.7.3.5
THROUGH-THE-THICKNESS REINFORCEMENT 356 4.7.3.6 PLY TERMINATION 357
4.7.3.7 EDGE MODIFICATION 357 REFERENCES 358 PROBLEMS 364 CHAPTER 5
MANUFACTURING 377 5.1 FUNDAMENTALS 377 5.1.1 DEGREEOF CURE 378 5.1.2
VISCOSITY 381 5.1.3 RESINFLOW 384 5.1.4 CONSOLIDATION 386 5.1.5 GEL-TIME
TEST 387 5.1.6 SHRINKAGE 388 5.1.7 VOIDS 389 5.2 BAG-MOLDING PROCESS 389
5.3 COMPRESSION MOLDING 394 5.4 PULTRUSION 403 5.5 FILAMENT WINDING 408
5.6 LIQUID COMPOSITE MOLDING PROCESSES 416 5.6.1 RESIN TRANSFER MOLDING
416 5.6.2 STRUCTURAL REACTION INJECTION MOLDING 418 5.7 OTHER
MANUFACTURING PROCESSES 420 5.7.1 RESIN FILM INFUSION 420 5.7.2 ELASTIC
RESERVOIR MOLDING 421 5.7.3 TUBEROLLING 422 5.8 MANUFACTURING PROCESSES
FOR THERMOPLASTIC MATRIX COMPOSITES 422 5.9 QUALITY INSPECTION METHODS
427 5.9.1 RAW MATERIALS 427 5.9.2 CURE CYCLE MONITORING 428 XII 5.9.3
CURED COMPOSITE PART 429 5.9.3.1 RADIOGRAPHY 430 5.9.3.2 ULTRASONIC 430
5.9.3.3 ACOUSTIC EMISSION 433 5.9.3.4 ACOUSTO-ULTRASONIC 435 5.9.3.5
THERMOGRAPHY 436 5.10 COSTLSSUES 438 REFERENCES 440 PROBLEMS 442 CHAPTER
6 DESIGN 451 6.1 FAILURE PREDICTION 451 6.1.1 FAILURE PREDICTION IN A
UNIDIRECTIONAL LAMINA 451 6.1.1.1 MAXIMUM STRESS THEORY 453 6.1.1.2
MAXIMUM STRAIN THEORY 456 6.1.1.3 AZZI-TSAI-HILL THEORY 459 6.1.1.4
TSAI-WU FAILURE THEORY 460 6.1.2 FAILURE PREDICTION FOR UNNOTCHED
LAMINATES 463 6.1.2.1 CONSEQUENCE OF LAMINA FAILURE 464 6.1.2.2 ULTIMATE
FAILURE OF A LAMINATE 466 6.1.3 FAILURE PREDICTION IN RANDOM FIBER
LAMINATES 467 6.1.4 FAILURE PREDICTION IN NOTCHED LAMINATES 468 6.1.4.1
STRESS CONCENTRATION FACTOR 468 6.1.4.2 HOLE SIZE EFFECT ON STRENGTH 469
6.1.5 FAILURE PREDICTION FOR DELAMINATION INITIATION 474 6.2 LAMINATE
DESIGN CONSIDERATIONS 475 6.2.1 DESIGN PHILOSOPHY 475 6.2.2 DESIGN
CRITERIA 476 6.2.3 DESIGN ALLOWABLES 478 6.2.4 GENERAL DESIGN GUIDELINES
481 6.2.4.1 LAMINATE DESIGN FOR STRENGTH 482 6.2.4.2 LAMINATE DESIGN FOR
STIFFNESS 484 6.2.5 FINITE ELEMENT ANALYSIS 485 6.3 JOINT DESIGN 486
6.3.1 MECHANICAL JOINTS 487 6.3.2 BONDED JOINTS 490 6.4 DESIGN EXAMPLES
492 6.4.1 DESIGN OF A TENSION MEMBER 492 6.4.2 DESIGN OF A COMPRESSION
MEMBER 494 6.4.3 DESIGN OF A BEAM 496 6.4.4 DESIGN OF A TORSIONAL MEMBER
501 6.5 APPLICATION EXAMPLES 504 XIII 6.5.1 INBOARD AILERONS ON LOCKHEED
L-1011 AIRCRAFT 504 6.5.2 COMPOSITE PRESSURE VESSELS 507 6.5.3 CORVETTE
LEAF SPRINGS 509 6.5.4 TUBES FOR SPACE STATION TRUSS STRUCTURE 511
REFERENCES 516 PROBLEMS 518 CHAPTER 7 METAL, CERAMIC, AND CARBON MATRIX
COMPOSITES 523 7.1 METAL MATRIX COMPOSITES 524 7.1.1 MECHANICAL
PROPERTIES 524 7.1.1.1 CONTINUOUS-FIBER MMC 526 7.1.1.2 DISCONTINUOUSLY
REINFORCED MMC 528 7.1.2 MANUFACTURING PROCESSES 533 7.1.2.1
CONTINUOUSLY REINFORCED MMC 533 7.1.2.2 DISCONTINUOUSLY REINFORCED MMC
534 7.2 CERAMIC MATRIX COMPOSITES 538 7.2.1 MICROMECHANICS 539 7.2.2
MECHANICAL PROPERTIES 542 7.2.2.1 GLASS MATRIX COMPOSITES 542 7.2.2.2
POLYCRYSTALLINE CERAMIC MATRIX 544 7.2.3 MANUFACTURING PROCESSES 545
7.2.3.1 POWDER CONSOLIDATION PROCESS 545 7.2.3.2 CHEMICAL PROCESSES 547
7.3 CARBON MATRIX COMPOSITES 548 REFERENCES 551 PROBLEMS , 553 CHAPTER 8
POLYMER NANOCOMPOSITES 557 8.1 NANOCLAY 557 8.2 CARBON NANOFIBERS 561
8.3 CARBON NANOTUBES 564 8.3.1 STRUCTURE 564 8.3.2 PRODUCTION OF CARBON
NANOTUBES 567 8.3.3 FUNCTIONALIZATION OF CARBON NANOTUBES 569 8.3.4
MECHANICAL PROPERTIES OF CARBON NANOTUBES 570 8.3.5 CARBON
NANOTUBE-POLYMER COMPOSITES 571 8.3.6 PROPERTIES OF CARBON
NANOTUBE-POLYMER COMPOSITES 572 REFERENCES 576 PROBLEMS 578 XIV
APPENDIXES A.L WOVEN FABRIC TERMINOLOGY 581 A.2 RESIDUAL STRESSES IN
FIBERS AND MATRIX IN A LAMINA DUE TO COOLING 583 REFERENCE 585 A.3
ALTERNATIVE EQUATIONS FOR THE ELASTIC AND THERMAL PROPERTIES OF A LAMINA
586 REFERENCES 586 A.4 HALPIN-TSAI EQUATIONS 587 REFERENCES 588 A.5
TYPICAL MECHANICAL PROPERTIES OF UNIDIRECTIONAL CONTINUOUS FIBER
COMPOSITES 589 A.6 PROPERTIES OF VARIOUS SMC COMPOSITES 590 A.7 FINITE
WIDTH CORRECTION FACTOR FOR ISOTROPIE PLATES 591 A.8 DETERMINATION OF
DESIGN ALLOWABLES 592 A.8.1 NORMAL DISTRIBUTION 592 A.8.2 WEIBULL
DISTRIBUTION 592 REFERENCE 593 A.9 TYPICAL MECHANICAL PROPERTIES OF
METAL MATRIX COMPOSITES 594 A.10 USEFUL REFERENCES 595 A.10.1 TEXT AND
REFERENCE BOOKS 595 A.10.2 LEADING JOURNALS ON COMPOSITE MATERIALS 596
A.10.3 PROFESSIONAL SOCIETIES ASSOCIATED WITH CONFERENCES AND
PUBLICATIONS ON COMPOSITE MATERIALS 596 A.LL LIST OF SELECTED COMPUTER
PROGRAMS 597 INDEX 599 |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| author | Mallick, P. K. 1946- |
| author_GND | (DE-588)103027651X |
| author_facet | Mallick, P. K. 1946- |
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| building | Verbundindex |
| bvnumber | BV022259515 |
| callnumber-first | T - Technology |
| callnumber-label | TA418 |
| callnumber-raw | TA418.9.C6 |
| callnumber-search | TA418.9.C6 |
| callnumber-sort | TA 3418.9 C6 |
| callnumber-subject | TA - General and Civil Engineering |
| classification_rvk | UQ 8420 ZM 7020 |
| classification_tum | WER 420f WER 440f |
| ctrlnum | (OCoLC)255538887 (DE-599)BVBBV022259515 |
| dewey-full | 620.118 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 620 - Engineering and allied operations |
| dewey-raw | 620.118 |
| dewey-search | 620.118 |
| dewey-sort | 3620.118 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Physik Werkstoffwissenschaften Werkstoffwissenschaften / Fertigungstechnik |
| discipline_str_mv | Physik Werkstoffwissenschaften Werkstoffwissenschaften / Fertigungstechnik |
| edition | 3. ed. |
| format | Book |
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| id | DE-604.BV022259515 |
| illustrated | Illustrated |
| index_date | 2024-07-02T16:42:23Z |
| indexdate | 2024-07-09T20:53:33Z |
| institution | BVB |
| isbn | 9780849342059 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-015470183 |
| oclc_num | 255538887 |
| open_access_boolean | |
| owner | DE-703 DE-898 DE-BY-UBR DE-384 DE-91G DE-BY-TUM |
| owner_facet | DE-703 DE-898 DE-BY-UBR DE-384 DE-91G DE-BY-TUM |
| physical | XVII, 619 S. Ill., graph. Darst. |
| publishDate | 2008 |
| publishDateSearch | 2008 |
| publishDateSort | 2008 |
| publisher | CRC Press |
| record_format | marc |
| spelling | Mallick, P. K. 1946- Verfasser (DE-588)103027651X aut Fiber-reinforced composites materials, manufacturing, and design P. K. Mallick Fiber reinforced composites 3. ed. Boca Raton, FL [u.a.] CRC Press 2008 XVII, 619 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Fibrous composites Faserverbundwerkstoff (DE-588)4134341-4 gnd rswk-swf Faserverbundwerkstoff (DE-588)4134341-4 s DE-604 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015470183&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Mallick, P. K. 1946- Fiber-reinforced composites materials, manufacturing, and design Fibrous composites Faserverbundwerkstoff (DE-588)4134341-4 gnd |
| subject_GND | (DE-588)4134341-4 |
| title | Fiber-reinforced composites materials, manufacturing, and design |
| title_alt | Fiber reinforced composites |
| title_auth | Fiber-reinforced composites materials, manufacturing, and design |
| title_exact_search | Fiber-reinforced composites materials, manufacturing, and design |
| title_exact_search_txtP | Fiber-reinforced composites materials, manufacturing, and design |
| title_full | Fiber-reinforced composites materials, manufacturing, and design P. K. Mallick |
| title_fullStr | Fiber-reinforced composites materials, manufacturing, and design P. K. Mallick |
| title_full_unstemmed | Fiber-reinforced composites materials, manufacturing, and design P. K. Mallick |
| title_short | Fiber-reinforced composites |
| title_sort | fiber reinforced composites materials manufacturing and design |
| title_sub | materials, manufacturing, and design |
| topic | Fibrous composites Faserverbundwerkstoff (DE-588)4134341-4 gnd |
| topic_facet | Fibrous composites Faserverbundwerkstoff |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015470183&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT mallickpk fiberreinforcedcompositesmaterialsmanufacturinganddesign AT mallickpk fiberreinforcedcomposites |