Verfügbarkeit: Polymer Testing

Polymer Testing:

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Bibliographische Detailangaben
Weitere Verfasser:	Grellmann, Wolfgang 1949- (HerausgeberIn), Seidler, Sabine 1961- (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Munich Carl Hanser Verlag [2022]
Ausgabe:	3rd edition
Schlagworte:	Kunststoffprüfung Werkstoffprüfung Kunststoff Kunststoffe Prüftechnik FBKTANAL: Werkstoffprüfung und Analytik PLAS2021 Composite materials Material testing Mechanical properties Nondestructive testing Part properties Plastics testing Product safety Stress cracking resistance Tensile test Lehrbuch
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XLII, 714 Seiten Illustrationen, Diagramme 25 cm
ISBN:	9781569908068

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245	1	0	\|a Polymer Testing \|c Wolfgang Grellmann, Sabine Seidler (Eds.) ; with contribution by Volker Altstädt [und 12 weitere]
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653			\|a Composite materials
653			\|a Material testing
653			\|a Mechanical properties
653			\|a Nondestructive testing
653			\|a Part properties
653			\|a Plastics testing
653			\|a Product safety
653			\|a Stress cracking resistance
653			\|a Tensile test
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Datensatz im Suchindex

_version_	1804184131242819584
adam_text	CONTENTS PREFACE TO THE THIRD EDITION .................................................................... V PREFACE TO THE SECOND EDITION ................................................................ VI PREFACE TO THE FIRST EDITION .................................................................... VIII THE AUTHORS ............................................................................................... XI THE EDITORS ............................................................................................................. XI WOLFGANG GRELLMANN ................................................................................... XI SABINE SEIDLER ............................................................................................... XI THE CO-AUTHORS ....................................................................................................... XII NOMENCLATURE (SELECTION) ....................................................................... XXVII TERMINOLOGY ............................................................................................ XXXVII MATERIALS - SYMBOLS AND ABBREVIATED TERMS ..................................... XLI 1 INTRODUCTION ....................................................................................... 1 1.1 THE GENESIS OF POLYMER TESTING AS A SCIENCE ........................................... 1 1.2 FACTORS INFLUENCING DATA ACQUISITION .......................................................... 5 1.3 CLASSIFICATION OF POLYMER TESTING METHODS ................................................ 6 1.4 STANDARDS AND REGULATORY CODES FOR POLYMER TESTING ............................. 8 1.5 COMPILATION OF STANDARDS ........................................................................... 11 2 PREPARATION OF SPECIMENS ............................................................. 15 2.1 INTRODUCTION ................................................................................................. 15 2.2 TESTING MOLDING MATERIALS ........................................................................... 17 2.3 SPECIMEN PREPARATION ................................................................................. 18 2.3.1 GENERAL REMARKS ........................................................................... 18 2.3.2 SPECIMEN PREPARATION BY DIRECT SHAPING ................................... 20 2.3.2.1 PRODUCTION OF SPECIMENS FROM THERMOPLASTIC MOLDING MATERIALS ........................................ 20 2.3.2.2 PRODUCTION OF SPECIMENS FROM THERMOSETTING MOLDING MATERIALS ........................................ 26 2.3.2.3 PRODUCTION OF SPECIMENS FROM ELASTOMERIC MATERIALS ...................................................... 28 2.3.3 SPECIMEN PREPARATION BY INDIRECT SHAPING ............................... 29 2.3.4 CHARACTERIZATION OF SPECIMEN STATE ............................................. 30 2.4 SPECIMEN PREPARATION AND CONDITIONING .................................................... 33 2.5 COMPILATION OF STANDARDS ............................................................................ 36 3 DETERMINING PROCESS-RELATED PROPERTIES .................................... 39 3.1 MOLDING MATERIALS ........................................................................................ 39 3.2 DETERMINING BULK MATERIAL PROPERTIES ..................................................... 40 3.2.1 BULK DENSITY, COMPACTED APPARENT DENSITY, FILL FACTOR ........... 40 3.2.2 POURABILITY, REPOSE ANGLE , SLIDE ANGLE ..................................... 42 3.3 DETERMINING THE PROPERTIES OF FLUIDS .......................................................... 43 3.3.1 RHEOLOGICAL FUNDAMENTALS .............................................................. 43 3.3.1.1 VISCOSITY OF NEWTONIAN AND MON-NEWTONIAN FLUIDS .. 43 3.3.1.2 TEMPERATURE AND PRESSURE DEPENDENCE OF VISCOSITY 46 3.3.1.3 MOLECULAR MASS INFLUENCE ON VISCOSITY ........................ 46 3.3.1.4 VOLUME PROPERTIES ........................................................ 47 3.3.2 MEASURING RHEOLOGICAL PROPERTIES ............................................... 47 3.3.2.1 RHEOMETRY/VISCOMETRY .................................................. 47 3.3.2.2 ROTATIONAL RHEOMETERS .................................................. 48 3.3.2.3 CAPILLARY RHEOMETERS .................................................... 55 3.3.2.4 EXTENSIONAL RHEOMETERS ................................................ 65 3.3.3 SELECTING MEASUREMENT METHODS FOR CHARACTERIZING POLYMER MATERIALS ........................................................................... 67 3.4 COMPILATION OF STANDARDS ........................................................................... 68 4 MECHANICAL PROPERTIES OF POLYMERS ............................................. 71 4.1 FUNDAMENTAL PRINCIPLES OF MECHANICAL BEHAVIOR ................................... 71 4.1.1 MECHANICAL LOADING PARAMETERS ................................................... 71 4.1.1.1 STRESS ................................................................................ 71 4.1.1.2 STRAIN ................................................................................ 74 4.1.2 MATERIAL BEHAVIOR AND CONSTITUTIVE EQUATIONS .......................... 75 4.1.2.1 ELASTIC BEHAVIOR .............................................................. 75 4.1.2.2 VISCOUS BEHAVIOR ............................................................ 78 4.1.2.3 VISCOELASTIC BEHAVIOR ...................................................... 79 4.1.2.4 PLASTIC BEHAVIOR .............................................................. 85 4.2 MECHANICAL SPECTROSCOPY ........................................................................... 87 4.2.1 EXPERIMENTAL DETERMINATION OF TIME-DEPENDENT MECHANICAL PROPERTIES ................................................................... 87 4.2.1.1 STATIC TESTING METHODS ................................................. 87 4.2.1.2 DYNAMIC-MECHANICAL ANALYSIS (DMA) ........................ 88 4.2.2 TIME AND TEMPERATURE DEPENDENCE OF VISCOELASTIC PROPERTIES 96 4.2.3 STRUCTURAL FACTORS INFLUENCING VISCOELASTIC PROPERTIES ............ 99 4.3 QUASI-STATIC TEST METHODS ........................................................................... 101 4.3.1 DEFORMATION BEHAVIOR OF POLYMERS ................................................ 101 4.3.2 TENSILE TESTS ON POLYMERS ............................................................ 106 4.3.2.1 THEORETICAL BASIS OF THE TENSILE TEST ........................... 106 4.3.2.2 CONVENTIONAL TENSILE TESTS ........................................ 109 4.3.2.3 ENHANCED INFORMATION OF TENSILE TESTS .................... 118 4.3.3 TEAR TEST ........................................................................................ 124 4.3.4 COMPRESSION TEST ON POLYMERS ..................................................... 125 4.3.4.1 THEORETICAL BASIS OF THE COMPRESSION TEST ................ 125 4.3.4.2 PERFORMANCE AND EVALUATION OF COMPRESSION TESTS .. 129 4.3.5 BEND TESTS ON POLYMERS ................................................................. 133 4.3.5.1 THEORETICAL BASIS OF THE BEND TEST ............................. 133 4.3.5.2 THE STANDARDIZED BEND TEST ......................................... 139 4.4 IMPACT LOADING ............................................................................................ 143 4.4.1 INTRODUCTION ..................................................................................... 143 4.4.2 CHARPY IMPACT TEST AND NOTCHED CHARPY IMPACT TEST ................. 144 4.4.3 TENSILE-IMPACT AND NOTCHED TENSILE-IMPACT TESTS ....................... 150 4.4.4 FREE-FALLING DART TEST AND PUNCTURE IMPACT TEST ....................... 152 4.5 FATIGUE BEHAVIOR ............................................................................................ 156 4.5.1 FUNDAMENTALS .................................................................................. 156 4.5.2 EXPERIMENTAL DETERMINATION OF FATIGUE BEHAVIOR ....................... 158 4.5.3 PLANNING AND EVALUATING FATIGUE TESTS ........................................ 162 4.5.4 FACTORS INFLUENCING THE FATIGUE BEHAVIOR AND SERVICE-LIFE PREDICTION OF SERVICE LIFE FOR POLYMERS ..... 164 4.6 LONG-TERM STATIC BEHAVIOR ......................................................................... 167 4.6.1 FUNDAMENTALS .................................................................................. 167 4.6.2 TENSILE CREEP TEST ............................................................................ 168 4.6.3 FLEXURAL CREEP TEST .......................................................................... 175 4.6.4 CREEP COMPRESSION TEST ................................................................ 176 4.7 HARDNESS TEST METHODS ............................................................................... 178 4.7.1 PRINCIPLES OF HARDNESS TESTING ...................................................... 178 4.7.2 CONVENTIONAL HARDNESS TESTING METHODS ...................................... 180 4.7.2.1 TEST METHODS FOR DETERMINING HARDNESS VALUES AFTER UNLOADING ............................................................. 180 4.7.2.2 TEST METHODS FOR DETERMINING HARDNESS VALUES UNDER LOAD ..................................................................... 182 4.7.2.3 SPECIAL TEST METHODS ..................................................... 185 4.7.2.4 COMPARABILITY OF HARDNESS VALUES ................................ 186 4.7.3 INSTRUMENTED HARDNESS TEST .......................................................... 187 4.7.3.1 FUNDAMENTALS OF MEASUREMENT METHODOLOGY .......... 187 4.7.3.2 MATERIAL PARAMETERS DERIVED FROM INSTRUMENTED HARDNESS TESTS ............................................................... 190 4.7.3.3 EXAMPLES OF APPLICATIONS ............................................. 192 4.7.4 CORRELATING MICROHARDNESS WITH YIELD STRESS AND FRACTURE TOUGHNESS ....................................................................................... 194 4.8 FRICTION AND WEAR ......................................................................................... 198 4.8.1 INTRODUCTION ...................................................................................... 198 4.8.2 FUNDAMENTALS OF FRICTION AND WEAR .............................................. 200 4.8.2.1 FRICTIONAL FORCES ........................................................... 200 4.8.2.2 TEMPERATURE INCREASE RESULTING FROM FRICTION ........ 201 4.8.2.3 WEAR AS A SYSTEM CHARACTERISTIC ................................. 201 4.8.2.4 WEAR MECHANISMS AND FORMATION OF TRANSFER FILM .. 202 4.8.3 WEAR TESTS AND WEAR CHARACTERISTICS ........................................... 203 4.8.3.1 SELECTED MODEL WEAR TESTS ............................................ 204 4.8.3.2 WEAR PARAMETERS AND THEIR DETERMINATION ............... 205 4.8.3.3 WEAR PARAMETERS AND THEIR PRESENTATION ................... 206 4.8.4 SELECTED EXPERIMENTAL RESULTS ..................................................... 207 4.8.4.1 COUNTERBODY INFLUENCE .................................................. 207 4.8.4.2 INFLUENCING OF FILLERS ...................................................... 208 4.8.4.3 INFLUENCE OF LOADING PARAMETERS ................................. 210 4.8.4.4 PREDICTING PROPERTIES VIA ARTIFICIAL NEURAL NETWORKS 212 4.8.5 SUMMARY ......................................................................................... 213 4.9 COMPILATION OF STANDARDS ........................................................................... 214 5 FRACTURE TOUGHNESS MEASUREMENTS IN ENGINEERING PLASTICS .. 229 5.1 INTRODUCTION .................................................................................................. 229 5.2 CURRENT STATE AND DEVELOPMENT TRENDS ................................................... 230 5.3 FUNDAMENTAL CONCEPTS OF FRACTURE MECHANICS ......................................... 231 5.3.1 LINEAR-ELASTIC FRACTURE MECHANICS (LEFM) ................................... 231 5.3.2 CRACK-TIP-OPENING DISPLACEMENT (CTOD) CONCEPT ...................... 236 5.3.3 J-INTEGRAL CONCEPT ........................................................................... 239 5.3.4 CRACK RESISTANCE (R-) CURVE CONCEPT ............................................ 241 5.4 EXPERIMENTAL DETERMINATION OF FRACTURE MECHANICAL PARAMETERS .......... 243 5.4.1 QUASI-STATIC LOADING ........................................................................ 243 5.4.2 INSTRUMENTED CHARPY IMPACT TEST .................................................. 246 5.4.2.1 TEST CONFIGURATION ......................................................... 246 5.4.2.2 MAINTENANCE OF EXPERIMENTAL CONDITIONS ................... 248 5.4.2.3 TYPES OF LOAD-DEFLECTION DIAGRAMS - OPTIMIZATION OF DIAGRAM SHAPE ........................................................... 250 5.4.2.4 SPECIAL APPROXIMATION METHODS FOR ESTIMATING J VALUES ...................................................... 251 5.4.2.5 REQUIREMENTS FOR SPECIMEN GEOMETRY ....................... 254 5.4.3 INSTRUMENTED FREE-FALLING DART TEST .................................................. 256 5.5 APPLICATIONS FOR MATERIAL DEVELOPMENT ..................................................... 258 5.5.1 FRACTURE MECHANICAL TOUGHNESS EVALUATION ON MODIFIED POLYMERS ......................................................................... 258 5.5.1.1 PARTICLE FILLED THERMOPLASTICS ...................................... 258 5.5.1.2 FIBER-REINFORCED THERMOPLASTICS .................................. 262 5.5.1.3 BLENDS AND COPOLYMERS .................................................. 266 5.5.2 INSTRUMENTED TENSILE-IMPACT TESTING FOR PRODUCT EVALUATION .. 272 5.5.3 CONSIDERATION OF FRACTURE BEHAVIOR FOR MATERIAL SELECTION AND DIMENSIONING ............................................................ 275 5.6 COMPILATION OF STANDARDS ............................................................................ 277 6 TESTING OF PHYSICAL PROPERTIES .......................................................... 283 6.1 THERMAL PROPERTIES ...................................................................................... 283 6.1.1 INTRODUCTION ...................................................................................... 283 6.1.2 DETERMINING HEAT CONDUCTIVITY .................................................... 285 6.1.3 DIFFERENTIAL SCANNING CALORIMETRY (DSC) ...................................... 289 6.1.4 THERMOGRAVIMETRIC ANALYSIS (TGA) .............................................. 294 6.1.5 THERMOMECHANICAL ANALYSIS (TMA) .............................................. 296 6.2 OPTICAL PROPERTIES ......................................................................................... 299 6.2.1 INTRODUCTION ...................................................................................... 299 6.2.2 REFLECTION AND DIFFRACTION .............................................................. 300 6.2.2.1 DIRECTED AND DIFFUSE REFLECTION ................................... 300 6.2.2.2 REFRACTIVE INDEX DETERMINATION ................................... 301 6.2.3 DISPERSION ........................................................................................ 305 6.2.4 POLARIZATION ...................................................................................... 305 6.2.4.1 OPTICAL ACTIVITY ............................................................. 306 6.2.4.2 POLARIZATION OF OPTICAL COMPONENTS ............................. 306 6.2.4.3 POLARIZATION-OPTICAL TESTING METHODS ......................... 308 6.2.5 TRANSMISSION, ABSORPTION AND REFLECTION .................................... 314 6.2.6 GLOSS, INTRINSIC DIFFUSE REFLECTANCE AND HAZE .............................. 315 6.2.7 COLOR ................................................................................................... 319 6.2.8 TRANSPARENCY AND TRANSLUCENCY .................................................... 322 6.2.9 INFRARED SPECTROSCOPY .................................................................... 325 6.2.10 LASER TECHNOLOGY ............................................................................ 328 6.2.11 TESTING THE STABILITY OF OPTICAL VALUES .......................................... 329 6.3 ELECTRICAL AND DIELECTRICAL PROPERTIES ....................................................... 330 6.3.1 INTRODUCTION ...................................................................................... 330 6.3.2 PHYSICAL FUNDAMENTALS .................................................................. 333 6.3.3 ELECTRICAL CONDUCTIVITY AND RESISTANCE ........................................ 336 6.3.3.1 VOLUME RESISTIVITY .......................................................... 336 6.3.3.2 SURFACE RESISTIVITY .......................................................... 339 6.3.3.3 INSULATION RESISTANCE .................................................... 340 6.3.3.4 CONTACTING AND SPECIMEN PREPARATION ........................ 343 6.3.4 DIELECTRICAL PROPERTIES AND DIELECTRICAL SPECTROSCOPY ............... 344 6.3.4.1 RELAXATION PROCESSES ...................................................... 345 6.3.4.2 ALTERNATING CURRENT CONDUCTIVITY (AC CONDUCTIVITY) 353 6.3.4.3 BROADBAND DIELECTRIC MEASUREMENT TECHNIQUES .... 354 6.3.5 SPECIAL TECHNICAL TESTING METHODS ................................................ 361 6.3.5.1 ELECTROSTATIC CHARGE ........................................................ 361 6.3.5.2 ELECTRIC STRENGTH ............................................................ 362 6.3.5.3 CREEP RESISTANCE AND ARC RESISTANCE ......................... 366 6.4 COMPILATION OF STANDARDS ........................................................................... 369 7 EVALUATING ENVIRONMENTAL STRESS CRACKING RESISTANCE ............ 383 7.1 GENERAL REMARKS ON THE FAILURE OF POLYMERS IN AGGRESSIVE FLUIDS ... 383 7.2 TESTING ENVIRONMENTAL STRESS CRACKING RESISTANCE ................................ 387 7.2.1 TEST METHODS FOR DETERMINING ENVIRONMENTAL STRESS CRACK FORMATION ......................................................................... 387 7.2.2 EXAMPLES FOR EVALUATING ENVIRONMENTAL STRESS CRACKING RESISTANCE WITH STANDARDIZED TEST METHODS .............................. 391 7.2.3 FRACTURE MECHANICS TEST METHODS ............................................... 394 7.3 MODELING PLASTICS FAILURE IN FLUIDS CAUSED BY STRESS CRACKING ............ 398 7.4 FACTORS INFLUENCING STRESS CRACKING BEHAVIOR ........................................ 402 7.4.1 CROSSLINKING .................................................................................... 402 7.4.2 MOLECULAR WEIGHT AND MOLECULAR WEIGHT DISTRIBUTION ............... 403 7.4.3 BRANCHING ....................................................................................... 404 7.4.4 CRYSTALLINE REGIONS ....................................................................... 405 7.4.5 MOLECULAR ORIENTATION ................................................................... 407 7.4.6 PHYSICAL-CHEMICAL INTERACTION PROCESSES ..................................... 410 7.4.7 VISCOSITY OF THE IMMERSION FLUID ........................................... 416 7.4.8 INFLUENCE OF TEST SPECIMEN THICKNESS ................................... 421 7.4.9 TEMPERATURE INFLUENCE ................................................................... 422 7.5 COMPILATION OF STANDARDS ............................................................................ 425 8 NON-DESTRUCTIVE POLYMER TESTING ................................................... 431 8.1 INTRODUCTION .................................................................................................. 431 8.2 NON-DESTRUCTIVE TESTING BY ELECTROMAGNETIC WAVES ................................. 433 8.2.1 X-RAY RADIATION ............................................................................... 433 8.2.1.1 PROJECTION METHODS BY MEANS OF ABSORPTION ............ 434 8.2.1.2 COMPTON BACKSCATTER ..................................................... 436 8.2.1.3 X-RAY REFRACTOMETRY ..................................................... 437 8.2.2 SPECTRAL RANGE OF VISIBLE LIGHT ..................................................... 440 8.2.2.1 MEASURING THICKNESS OF TRANSPARENT COMPONENTS .. 440 8.2.2.2 PHOTOELASTIC IMAGING OF TRANSPARENT COMPONENTS ... 440 8.2.2.3 CONFOCAL LASER SCAN MICROSCOPES ............................... 441 8.2.2.4 LINE PROJECTION FOR DETECTING CONTOUR ................... 442 8.2.2.5 INTERFEROMETRIC METHODS ......................................... 443 8.2.3 THERMOGRAPHY .................................................................................. 449 8.2.4 MICROWAVES ...................................................................................... 449 8.2.5 DIELECTRIC SPECTROSCOPY .................................................................. 453 8.2.6 EDDY CURRENT .................................................................................... 454 8.3 NON-DESTRUCTIVE TESTING WITH ELASTIC WAVES ............................................. 456 8.3.1 ELASTIC WAVES UNDER LINEAR MATERIAL BEHAVIOR ........................... 457 8.3.1.1 ULTRASOUND ..................................................................... 457 8.3.1.2 MECHANICAL VIBROMETRY ................................................. 468 8.3.2 ELASTIC WAVES WITH NON-LINEAR MATERIAL BEHAVIOR ..................... 471 8.3.2.1 FUNDAMENTALS ON ELASTIC WAVES IN NON-LINEAR MATERIALS ..................................................... 471 8.3.2.2 NON-LINEAR AIR-ULTRASOUND ........................................... 472 8.3.2.3 NON-LINEAR VIBROMETRY ................................................. 475 8.4 NON-DESTRUCTIVE TESTING BY DYNAMIC HEAT TRANSPORT ............................. 477 8.4.1 EXTERNAL EXCITATION .......................................................................... 478 8.4.1.1 HEAT-FLUX THERMOGRAPHY BY NON-PERIODICAL HEAT TRANSPORT ............................................................... 478 8.4.1.2 THERMOGRAPHY WITH PERIODICAL HEAT TRANSPORT ........ 480 8.4.2 INTERNAL EXCITATION ......................................................................... 484 8.4.2.1 THERMOGRAPHY WITH EXCITATION BY ELASTIC WAVES .... 484 8.4.2.2 THERMOGRAPHY WITH OTHER TYPES OF INTERNAL EXCITATION ......................................................... 489 8.5 OUTLOOK .................................................................................................... 489 9 HYBRID METHODS OF POLYMER DIAGNOSTICS ...................................... 497 9.1 OBJECTIVES .................................................................................................... 497 9.2 TENSILE TEST, ACOUSTIC EMISSION TEST AND VIDEO THERMOGRAPHY ............ 499 9.3 TENSILE TEST AND LASER EXTENSOMETRY ........................................................ 502 9.4 FRACTURE MECHANICS AND NON-DESTRUCTIVE TESTING ................................... 507 10 TESTING OF COMPOSITE MATERIALS ..................................................... 515 10.1 INTRODUCTION ................................................................................................ 515 10.2 THEORETICAL BACKGROUND .............................................................................. 517 10.2.1 ANISOTROPY ....................................................................................... 517 10.2.2 ELASTIC PROPERTIES OF LAMINATES ..................................................... 518 10.2.3 INFLUENCE FROM MOISTURE AND TEMPERATURE ................................ 518 10.2.4 LAMINATE THEORY AND ST. VENANT S PRINCIPLE ................................ 519 10.2.5 APPLYING FRACTURE MECHANICAL CONCEPTS TO FIBER COMPOSITES .. 520 10.3 SPECIMEN PREPARATION ................................................................................ 522 10.3.1 MANUFACTURE OF LAMINATES ............................................................. 522 10.3.2 PREPARING SPECIMENS FOR UNIDIRECTIONAL LOADING ..................... 524 10.4 DETERMINING FIBER VOLUME CONTENT .......................................................... 526 10.5 MECHANICAL TEST METHODS .......................................................................... 527 10.5.1 TENSILE TESTS .................................................................................. 527 10.5.2 COMPRESSION TESTS ........................................................................ 530 10.5.3 FLEXURAL TESTS ................................................................................ 534 10.5.4 INTERLAMINAR SHEAR STRENGTH ....................................................... 537 10.5.5 SHEAR TESTS .................................................................................... 538 10.5.5.1 45 OFF-AXIS TENSILE TEST .......................................... 538 10.5.5.2 10 OFF-AXIS TENSILE TEST ............................................. 540 10.5.5.3 TWO AND THREE-RAIL SHEAR TEST ................................... 541 10.5.5.4 LOSIPESCU SHEAR TEST ..................................................... 543 10.5.5.5 PLATE-TWIST SHEAR TEST ................................................... 544 10.5.5.6 TORSIONAL LOADING ON THIN-WALLED TUBES ................... 545 10.6 FRACTURE MECHANICAL TEST METHODS ........................................................... 546 10.6.1 EXPERIMENTAL TESTS ON FIBER COMPOSITE MATERIALS ..................... 546 10.6.2 SPECIAL SPECIMEN CONFIGURATION ................................................... 547 10.6.2.1 SPECIMENS FOR MODE I LOADING ..................................... 547 10.6.2.2 SPECIMEN FOR MODE II LOADING ..................................... 548 10.6.2.3 MIXED-MODE SPECIMENS ............................................... 551 10.6.3 FRACTURE MECHANICAL VALUES OF FIBER COMPOSITE MATERIALS .... 554 10.7 DEDICATED TEST METHODS ............................................................................... 555 10.7.1 EDGE DELAMINATION TEST (EDT) ....................................................... 555 10.7.2 BOEING OPEN-HOLE COMPRESSION TEST ........................................... 556 10.8 PEEL STRENGTH OF FLEXIBLE LAMINATES ........................................................... 557 10.9 IMPACT LOADING AND DAMAGE TOLERANCE ..................................................... 559 10.10 COMPILATION OF STANDARDS AND GUIDELINES ................................................. 562 11 TECHNOLOGICAL TESTING METHODS ...................................................... 569 11.1 HEAT DISTORTION RESISTANCE ......................................................................... 569 11.1.1 FUNDAMENTALS AND DEFINITIONS ..................................................... 569 11.1.2 DETERMINING HEAT DISTORTION RESISTANCE TEMPERATURE HDT AND VICAT SOFTENING TEMPERATURE ......................................... 570 11.1.3 PRACTICAL EXAMPLES FOR THE INFORMATIONAL VALUE OF THE VICAT AND HDT TEST ......................................................................... 573 11.2 FIRE BEHAVIOR ............................................................................................... 577 11.2.1 INTRODUCTION ..................................................................................... 577 11.2.2 STAGES OF A FIRE AND FIRE-DETERMINING PARAMETERS ................... 579 11.2.3 FIRE TESTS ......................................................................................... 581 11.2.3.1 SMOLDERING FIRE ............................................................ 582 11.2.3.2 IGNITABILITY .................................................................... 583 11.2.3.3 FLAME SPREAD ................................................................ 587 11.2.3.4 HEAT RELEASE .................................................................. 590 11.2.3.5 FIRE RESISTANCE ............................................................... 592 11.2.3.6 EASE OF EXTINCTION ......................................................... 592 11.2.4 UTILIZATION OF CONE CALORIMETER TO CHARACTERIZE FIRE BEHAVIOR ................................................................................... 594 11.3 COMPONENT TESTING ..................................................................................... 600 11.3.1 INTRODUCTION .................................................................................... 600 11.3.2 BASIC TESTING METHODS .................................................................. 601 11.3.2.1 GENERAL REMARKS ......................................................... 601 11.3.2.2 TESTING VISIBLE FEATURES ............................................. 601 11.3.2.3 TESTING MATERIALS PROPERTIES ....................................... 603 11.3.2.4 TESTING SERVICEABILITY ................................................. 605 11.3.3 TESTING PLASTIC PIPING ................................................................... 606 11.3.3.1 QUALITY ASSURANCE FOR PLASTIC PIPING ............................ 606 11.3.3.2 TESTING HYDROSTATIC RUPTURE STRENGTH FOR PLASTIC PIPES ................................................................. 608 11.3.4 TESTING PLASTICS COMPONENTS FOR APPLICATION IN VEHICLE DESIGN 611 11.3.4.1 TEST REQUIREMENTS ........................................................ 611 11.3.4.2 MECHANICAL TESTS .......................................................... 611 11.3.4.3 PERMEATION AND EMISSION TESTS .................................. 613 11.3.5 TESTING PLASTICS COMPONENTS FOR APPLICATION IN BUILDING CONSTRUCTION ................................................................................... 616 11.3.5.1 INTRODUCTION ................................................................... 616 11.3.5.2 TESTING SANDWICH PANELS .............................................. 617 11.3.5.3 TESTING PLASTIC CASING PIPES ........................................ 620 11.4 IMPLANT TESTING ............................................................................................. 624 11.4.1 INTRODUCTION .................................................................................... 624 11.4.2 PUSH-OUT TESTS FOR IMPLANTS ......................................................... 626 11.4.3 TESTING THE APPLICATION BEHAVIOR OF PHARYNGOTRACHEAL VOICE PROSTHESES ............................................................................ 629 11.4.4 DETERMINING THE MECHANICAL PROPERTIES OF HUMAN CARTILAGE .. 632 11.5 COMPILATION OF STANDARDS .......................................................................... 634 12 TESTING OF POLYMERIC FILMS ............................................................... 643 12.1 BASICS .............................................................................................................. 643 12.2 DETERMINATION OF MECHANICAL PROPERTIES OF FILMS ................................... 644 12.2.1 TENSILE TEST .................................................................................... 644 12.2.2 TEAR TEST ........................................................................................ 647 12.2.3 IMPACT BEHAVIOR ............................................................................ 648 12.2.3.1 TENSILE-IMPACT TEST ....................................................... 648 12.2.3.2 DYNAMIC TEAR TESTING ................................................... 651 12.2.3.3 PUNCTURE TESTS ............................................................... 653 12.3 CHARACTERIZATION OF SEPARATION BEHAVIOR ................................................. 657 12.3.1 PEEL TESTS ...................................................................................... 657 12.3.2 CLING TEST ......................................................................................... 666 12.4 FRACTURE MECHANICS CHARACTERIZATION ...................................................... 668 12.5 CHARACTERIZATION OF FILM SURFACES ............................................................ 672 12.6 COMPILATION OF STANDARDS AND GUIDELINES ................................................ 675 13 TESTING OF MICROCOMPONENTS ........................................................... 679 13.1 INTRODUCTION ................................................................................................. 679 13.2 MICROSPECIMEN TESTING .............................................................................. 682 13.2.1 MICRO-TENSILE TESTS ......................................................................... 682 13.2.2 FRACTURE MECHANICS INVESTIGATIONS USING MINI COMPACT TENSION (CT) SPECIMENS ................................................................. 687 13.3 NANOINDENTATION TESTING ............................................................................ 689 13.4 TESTING METHODS ON THEIR WAY TO THE NANOWORLD .................................... 691 13.4.1 NON-CONTACTING DISPLACEMENT FIELD ANALYSIS USING DIGITAL IMAGE CORRELATION (GRAY-VALUE CORRELATION ANALYSIS) .. 691 13.4.2 IN-SITU DEFORMATION MEASUREMENT WITH ATOMIC FORCE MICROSCOPY (AFM) .................................................. 693 INDEX ............................................................................................................. 701
adam_txt	CONTENTS PREFACE TO THE THIRD EDITION . V PREFACE TO THE SECOND EDITION . VI PREFACE TO THE FIRST EDITION . VIII THE AUTHORS . XI THE EDITORS . XI WOLFGANG GRELLMANN . XI SABINE SEIDLER . XI THE CO-AUTHORS . XII NOMENCLATURE (SELECTION) . XXVII TERMINOLOGY . XXXVII MATERIALS - SYMBOLS AND ABBREVIATED TERMS . XLI 1 INTRODUCTION . 1 1.1 THE GENESIS OF POLYMER TESTING AS A SCIENCE . 1 1.2 FACTORS INFLUENCING DATA ACQUISITION . 5 1.3 CLASSIFICATION OF POLYMER TESTING METHODS . 6 1.4 STANDARDS AND REGULATORY CODES FOR POLYMER TESTING . 8 1.5 COMPILATION OF STANDARDS . 11 2 PREPARATION OF SPECIMENS . 15 2.1 INTRODUCTION . 15 2.2 TESTING MOLDING MATERIALS . 17 2.3 SPECIMEN PREPARATION . 18 2.3.1 GENERAL REMARKS . 18 2.3.2 SPECIMEN PREPARATION BY DIRECT SHAPING . 20 2.3.2.1 PRODUCTION OF SPECIMENS FROM THERMOPLASTIC MOLDING MATERIALS . 20 2.3.2.2 PRODUCTION OF SPECIMENS FROM THERMOSETTING MOLDING MATERIALS . 26 2.3.2.3 PRODUCTION OF SPECIMENS FROM ELASTOMERIC MATERIALS . 28 2.3.3 SPECIMEN PREPARATION BY INDIRECT SHAPING . 29 2.3.4 CHARACTERIZATION OF SPECIMEN STATE . 30 2.4 SPECIMEN PREPARATION AND CONDITIONING . 33 2.5 COMPILATION OF STANDARDS . 36 3 DETERMINING PROCESS-RELATED PROPERTIES . 39 3.1 MOLDING MATERIALS . 39 3.2 DETERMINING BULK MATERIAL PROPERTIES . 40 3.2.1 BULK DENSITY, COMPACTED APPARENT DENSITY, FILL FACTOR . 40 3.2.2 POURABILITY, REPOSE ANGLE , SLIDE ANGLE . 42 3.3 DETERMINING THE PROPERTIES OF FLUIDS . 43 3.3.1 RHEOLOGICAL FUNDAMENTALS . 43 3.3.1.1 VISCOSITY OF NEWTONIAN AND MON-NEWTONIAN FLUIDS . 43 3.3.1.2 TEMPERATURE AND PRESSURE DEPENDENCE OF VISCOSITY 46 3.3.1.3 MOLECULAR MASS INFLUENCE ON VISCOSITY . 46 3.3.1.4 VOLUME PROPERTIES . 47 3.3.2 MEASURING RHEOLOGICAL PROPERTIES . 47 3.3.2.1 RHEOMETRY/VISCOMETRY . 47 3.3.2.2 ROTATIONAL RHEOMETERS . 48 3.3.2.3 CAPILLARY RHEOMETERS . 55 3.3.2.4 EXTENSIONAL RHEOMETERS . 65 3.3.3 SELECTING MEASUREMENT METHODS FOR CHARACTERIZING POLYMER MATERIALS . 67 3.4 COMPILATION OF STANDARDS . 68 4 MECHANICAL PROPERTIES OF POLYMERS . 71 4.1 FUNDAMENTAL PRINCIPLES OF MECHANICAL BEHAVIOR . 71 4.1.1 MECHANICAL LOADING PARAMETERS . 71 4.1.1.1 STRESS . 71 4.1.1.2 STRAIN . 74 4.1.2 MATERIAL BEHAVIOR AND CONSTITUTIVE EQUATIONS . 75 4.1.2.1 ELASTIC BEHAVIOR . 75 4.1.2.2 VISCOUS BEHAVIOR . 78 4.1.2.3 VISCOELASTIC BEHAVIOR . 79 4.1.2.4 PLASTIC BEHAVIOR . 85 4.2 MECHANICAL SPECTROSCOPY . 87 4.2.1 EXPERIMENTAL DETERMINATION OF TIME-DEPENDENT MECHANICAL PROPERTIES . 87 4.2.1.1 STATIC TESTING METHODS . 87 4.2.1.2 DYNAMIC-MECHANICAL ANALYSIS (DMA) . 88 4.2.2 TIME AND TEMPERATURE DEPENDENCE OF VISCOELASTIC PROPERTIES 96 4.2.3 STRUCTURAL FACTORS INFLUENCING VISCOELASTIC PROPERTIES . 99 4.3 QUASI-STATIC TEST METHODS . 101 4.3.1 DEFORMATION BEHAVIOR OF POLYMERS . 101 4.3.2 TENSILE TESTS ON POLYMERS . 106 4.3.2.1 THEORETICAL BASIS OF THE TENSILE TEST . 106 4.3.2.2 CONVENTIONAL TENSILE TESTS . 109 4.3.2.3 ENHANCED INFORMATION OF TENSILE TESTS . 118 4.3.3 TEAR TEST . 124 4.3.4 COMPRESSION TEST ON POLYMERS . 125 4.3.4.1 THEORETICAL BASIS OF THE COMPRESSION TEST . 125 4.3.4.2 PERFORMANCE AND EVALUATION OF COMPRESSION TESTS . 129 4.3.5 BEND TESTS ON POLYMERS . 133 4.3.5.1 THEORETICAL BASIS OF THE BEND TEST . 133 4.3.5.2 THE STANDARDIZED BEND TEST . 139 4.4 IMPACT LOADING . 143 4.4.1 INTRODUCTION . 143 4.4.2 CHARPY IMPACT TEST AND NOTCHED CHARPY IMPACT TEST . 144 4.4.3 TENSILE-IMPACT AND NOTCHED TENSILE-IMPACT TESTS . 150 4.4.4 FREE-FALLING DART TEST AND PUNCTURE IMPACT TEST . 152 4.5 FATIGUE BEHAVIOR . 156 4.5.1 FUNDAMENTALS . 156 4.5.2 EXPERIMENTAL DETERMINATION OF FATIGUE BEHAVIOR . 158 4.5.3 PLANNING AND EVALUATING FATIGUE TESTS . 162 4.5.4 FACTORS INFLUENCING THE FATIGUE BEHAVIOR AND SERVICE-LIFE PREDICTION OF SERVICE LIFE FOR POLYMERS . 164 4.6 LONG-TERM STATIC BEHAVIOR . 167 4.6.1 FUNDAMENTALS . 167 4.6.2 TENSILE CREEP TEST . 168 4.6.3 FLEXURAL CREEP TEST . 175 4.6.4 CREEP COMPRESSION TEST . 176 4.7 HARDNESS TEST METHODS . 178 4.7.1 PRINCIPLES OF HARDNESS TESTING . 178 4.7.2 CONVENTIONAL HARDNESS TESTING METHODS . 180 4.7.2.1 TEST METHODS FOR DETERMINING HARDNESS VALUES AFTER UNLOADING . 180 4.7.2.2 TEST METHODS FOR DETERMINING HARDNESS VALUES UNDER LOAD . 182 4.7.2.3 SPECIAL TEST METHODS . 185 4.7.2.4 COMPARABILITY OF HARDNESS VALUES . 186 4.7.3 INSTRUMENTED HARDNESS TEST . 187 4.7.3.1 FUNDAMENTALS OF MEASUREMENT METHODOLOGY . 187 4.7.3.2 MATERIAL PARAMETERS DERIVED FROM INSTRUMENTED HARDNESS TESTS . 190 4.7.3.3 EXAMPLES OF APPLICATIONS . 192 4.7.4 CORRELATING MICROHARDNESS WITH YIELD STRESS AND FRACTURE TOUGHNESS . 194 4.8 FRICTION AND WEAR . 198 4.8.1 INTRODUCTION . 198 4.8.2 FUNDAMENTALS OF FRICTION AND WEAR . 200 4.8.2.1 FRICTIONAL FORCES . 200 4.8.2.2 TEMPERATURE INCREASE RESULTING FROM FRICTION . 201 4.8.2.3 WEAR AS A SYSTEM CHARACTERISTIC . 201 4.8.2.4 WEAR MECHANISMS AND FORMATION OF TRANSFER FILM . 202 4.8.3 WEAR TESTS AND WEAR CHARACTERISTICS . 203 4.8.3.1 SELECTED MODEL WEAR TESTS . 204 4.8.3.2 WEAR PARAMETERS AND THEIR DETERMINATION . 205 4.8.3.3 WEAR PARAMETERS AND THEIR PRESENTATION . 206 4.8.4 SELECTED EXPERIMENTAL RESULTS . 207 4.8.4.1 COUNTERBODY INFLUENCE . 207 4.8.4.2 INFLUENCING OF FILLERS . 208 4.8.4.3 INFLUENCE OF LOADING PARAMETERS . 210 4.8.4.4 PREDICTING PROPERTIES VIA ARTIFICIAL NEURAL NETWORKS 212 4.8.5 SUMMARY . 213 4.9 COMPILATION OF STANDARDS . 214 5 FRACTURE TOUGHNESS MEASUREMENTS IN ENGINEERING PLASTICS . 229 5.1 INTRODUCTION . 229 5.2 CURRENT STATE AND DEVELOPMENT TRENDS . 230 5.3 FUNDAMENTAL CONCEPTS OF FRACTURE MECHANICS . 231 5.3.1 LINEAR-ELASTIC FRACTURE MECHANICS (LEFM) . 231 5.3.2 CRACK-TIP-OPENING DISPLACEMENT (CTOD) CONCEPT . 236 5.3.3 J-INTEGRAL CONCEPT . 239 5.3.4 CRACK RESISTANCE (R-) CURVE CONCEPT . 241 5.4 EXPERIMENTAL DETERMINATION OF FRACTURE MECHANICAL PARAMETERS . 243 5.4.1 QUASI-STATIC LOADING . 243 5.4.2 INSTRUMENTED CHARPY IMPACT TEST . 246 5.4.2.1 TEST CONFIGURATION . 246 5.4.2.2 MAINTENANCE OF EXPERIMENTAL CONDITIONS . 248 5.4.2.3 TYPES OF LOAD-DEFLECTION DIAGRAMS - OPTIMIZATION OF DIAGRAM SHAPE . 250 5.4.2.4 SPECIAL APPROXIMATION METHODS FOR ESTIMATING J VALUES . 251 5.4.2.5 REQUIREMENTS FOR SPECIMEN GEOMETRY . 254 5.4.3 INSTRUMENTED FREE-FALLING DART TEST . 256 5.5 APPLICATIONS FOR MATERIAL DEVELOPMENT . 258 5.5.1 FRACTURE MECHANICAL TOUGHNESS EVALUATION ON MODIFIED POLYMERS . 258 5.5.1.1 PARTICLE FILLED THERMOPLASTICS . 258 5.5.1.2 FIBER-REINFORCED THERMOPLASTICS . 262 5.5.1.3 BLENDS AND COPOLYMERS . 266 5.5.2 INSTRUMENTED TENSILE-IMPACT TESTING FOR PRODUCT EVALUATION . 272 5.5.3 CONSIDERATION OF FRACTURE BEHAVIOR FOR MATERIAL SELECTION AND DIMENSIONING . 275 5.6 COMPILATION OF STANDARDS . 277 6 TESTING OF PHYSICAL PROPERTIES . 283 6.1 THERMAL PROPERTIES . 283 6.1.1 INTRODUCTION . 283 6.1.2 DETERMINING HEAT CONDUCTIVITY . 285 6.1.3 DIFFERENTIAL SCANNING CALORIMETRY (DSC) . 289 6.1.4 THERMOGRAVIMETRIC ANALYSIS (TGA) . 294 6.1.5 THERMOMECHANICAL ANALYSIS (TMA) . 296 6.2 OPTICAL PROPERTIES . 299 6.2.1 INTRODUCTION . 299 6.2.2 REFLECTION AND DIFFRACTION . 300 6.2.2.1 DIRECTED AND DIFFUSE REFLECTION . 300 6.2.2.2 REFRACTIVE INDEX DETERMINATION . 301 6.2.3 DISPERSION . 305 6.2.4 POLARIZATION . 305 6.2.4.1 OPTICAL ACTIVITY . 306 6.2.4.2 POLARIZATION OF OPTICAL COMPONENTS . 306 6.2.4.3 POLARIZATION-OPTICAL TESTING METHODS . 308 6.2.5 TRANSMISSION, ABSORPTION AND REFLECTION . 314 6.2.6 GLOSS, INTRINSIC DIFFUSE REFLECTANCE AND HAZE . 315 6.2.7 COLOR . 319 6.2.8 TRANSPARENCY AND TRANSLUCENCY . 322 6.2.9 INFRARED SPECTROSCOPY . 325 6.2.10 LASER TECHNOLOGY . 328 6.2.11 TESTING THE STABILITY OF OPTICAL VALUES . 329 6.3 ELECTRICAL AND DIELECTRICAL PROPERTIES . 330 6.3.1 INTRODUCTION . 330 6.3.2 PHYSICAL FUNDAMENTALS . 333 6.3.3 ELECTRICAL CONDUCTIVITY AND RESISTANCE . 336 6.3.3.1 VOLUME RESISTIVITY . 336 6.3.3.2 SURFACE RESISTIVITY . 339 6.3.3.3 INSULATION RESISTANCE . 340 6.3.3.4 CONTACTING AND SPECIMEN PREPARATION . 343 6.3.4 DIELECTRICAL PROPERTIES AND DIELECTRICAL SPECTROSCOPY . 344 6.3.4.1 RELAXATION PROCESSES . 345 6.3.4.2 ALTERNATING CURRENT CONDUCTIVITY (AC CONDUCTIVITY) 353 6.3.4.3 BROADBAND DIELECTRIC MEASUREMENT TECHNIQUES . 354 6.3.5 SPECIAL TECHNICAL TESTING METHODS . 361 6.3.5.1 ELECTROSTATIC CHARGE . 361 6.3.5.2 ELECTRIC STRENGTH . 362 6.3.5.3 CREEP RESISTANCE AND ARC RESISTANCE . 366 6.4 COMPILATION OF STANDARDS . 369 7 EVALUATING ENVIRONMENTAL STRESS CRACKING RESISTANCE . 383 7.1 GENERAL REMARKS ON THE FAILURE OF POLYMERS IN AGGRESSIVE FLUIDS . 383 7.2 TESTING ENVIRONMENTAL STRESS CRACKING RESISTANCE . 387 7.2.1 TEST METHODS FOR DETERMINING ENVIRONMENTAL STRESS CRACK FORMATION . 387 7.2.2 EXAMPLES FOR EVALUATING ENVIRONMENTAL STRESS CRACKING RESISTANCE WITH STANDARDIZED TEST METHODS . 391 7.2.3 FRACTURE MECHANICS TEST METHODS . 394 7.3 MODELING PLASTICS FAILURE IN FLUIDS CAUSED BY STRESS CRACKING . 398 7.4 FACTORS INFLUENCING STRESS CRACKING BEHAVIOR . 402 7.4.1 CROSSLINKING . 402 7.4.2 MOLECULAR WEIGHT AND MOLECULAR WEIGHT DISTRIBUTION . 403 7.4.3 BRANCHING . 404 7.4.4 CRYSTALLINE REGIONS . 405 7.4.5 MOLECULAR ORIENTATION . 407 7.4.6 PHYSICAL-CHEMICAL INTERACTION PROCESSES . 410 7.4.7 VISCOSITY OF THE IMMERSION FLUID . 416 7.4.8 INFLUENCE OF TEST SPECIMEN THICKNESS . 421 7.4.9 TEMPERATURE INFLUENCE . 422 7.5 COMPILATION OF STANDARDS . 425 8 NON-DESTRUCTIVE POLYMER TESTING . 431 8.1 INTRODUCTION . 431 8.2 NON-DESTRUCTIVE TESTING BY ELECTROMAGNETIC WAVES . 433 8.2.1 X-RAY RADIATION . 433 8.2.1.1 PROJECTION METHODS BY MEANS OF ABSORPTION . 434 8.2.1.2 COMPTON BACKSCATTER . 436 8.2.1.3 X-RAY REFRACTOMETRY . 437 8.2.2 SPECTRAL RANGE OF VISIBLE LIGHT . 440 8.2.2.1 MEASURING THICKNESS OF TRANSPARENT COMPONENTS . 440 8.2.2.2 PHOTOELASTIC IMAGING OF TRANSPARENT COMPONENTS . 440 8.2.2.3 CONFOCAL LASER SCAN MICROSCOPES . 441 8.2.2.4 LINE PROJECTION FOR DETECTING CONTOUR . 442 8.2.2.5 INTERFEROMETRIC METHODS . 443 8.2.3 THERMOGRAPHY . 449 8.2.4 MICROWAVES . 449 8.2.5 DIELECTRIC SPECTROSCOPY . 453 8.2.6 EDDY CURRENT . 454 8.3 NON-DESTRUCTIVE TESTING WITH ELASTIC WAVES . 456 8.3.1 ELASTIC WAVES UNDER LINEAR MATERIAL BEHAVIOR . 457 8.3.1.1 ULTRASOUND . 457 8.3.1.2 MECHANICAL VIBROMETRY . 468 8.3.2 ELASTIC WAVES WITH NON-LINEAR MATERIAL BEHAVIOR . 471 8.3.2.1 FUNDAMENTALS ON ELASTIC WAVES IN NON-LINEAR MATERIALS . 471 8.3.2.2 NON-LINEAR AIR-ULTRASOUND . 472 8.3.2.3 NON-LINEAR VIBROMETRY . 475 8.4 NON-DESTRUCTIVE TESTING BY DYNAMIC HEAT TRANSPORT . 477 8.4.1 EXTERNAL EXCITATION . 478 8.4.1.1 HEAT-FLUX THERMOGRAPHY BY NON-PERIODICAL HEAT TRANSPORT . 478 8.4.1.2 THERMOGRAPHY WITH PERIODICAL HEAT TRANSPORT . 480 8.4.2 INTERNAL EXCITATION . 484 8.4.2.1 THERMOGRAPHY WITH EXCITATION BY ELASTIC WAVES . 484 8.4.2.2 THERMOGRAPHY WITH OTHER TYPES OF INTERNAL EXCITATION . 489 8.5 OUTLOOK . 489 9 HYBRID METHODS OF POLYMER DIAGNOSTICS . 497 9.1 OBJECTIVES . 497 9.2 TENSILE TEST, ACOUSTIC EMISSION TEST AND VIDEO THERMOGRAPHY . 499 9.3 TENSILE TEST AND LASER EXTENSOMETRY . 502 9.4 FRACTURE MECHANICS AND NON-DESTRUCTIVE TESTING . 507 10 TESTING OF COMPOSITE MATERIALS . 515 10.1 INTRODUCTION . 515 10.2 THEORETICAL BACKGROUND . 517 10.2.1 ANISOTROPY . 517 10.2.2 ELASTIC PROPERTIES OF LAMINATES . 518 10.2.3 INFLUENCE FROM MOISTURE AND TEMPERATURE . 518 10.2.4 LAMINATE THEORY AND ST. VENANT ' S PRINCIPLE . 519 10.2.5 APPLYING FRACTURE MECHANICAL CONCEPTS TO FIBER COMPOSITES . 520 10.3 SPECIMEN PREPARATION . 522 10.3.1 MANUFACTURE OF LAMINATES . 522 10.3.2 PREPARING SPECIMENS FOR UNIDIRECTIONAL LOADING . 524 10.4 DETERMINING FIBER VOLUME CONTENT . 526 10.5 MECHANICAL TEST METHODS . 527 10.5.1 TENSILE TESTS . 527 10.5.2 COMPRESSION TESTS . 530 10.5.3 FLEXURAL TESTS . 534 10.5.4 INTERLAMINAR SHEAR STRENGTH . 537 10.5.5 SHEAR TESTS . 538 10.5.5.1 45 OFF-AXIS TENSILE TEST . 538 10.5.5.2 10 OFF-AXIS TENSILE TEST . 540 10.5.5.3 TWO AND THREE-RAIL SHEAR TEST . 541 10.5.5.4 LOSIPESCU SHEAR TEST . 543 10.5.5.5 PLATE-TWIST SHEAR TEST . 544 10.5.5.6 TORSIONAL LOADING ON THIN-WALLED TUBES . 545 10.6 FRACTURE MECHANICAL TEST METHODS . 546 10.6.1 EXPERIMENTAL TESTS ON FIBER COMPOSITE MATERIALS . 546 10.6.2 SPECIAL SPECIMEN CONFIGURATION . 547 10.6.2.1 SPECIMENS FOR MODE I LOADING . 547 10.6.2.2 SPECIMEN FOR MODE II LOADING . 548 10.6.2.3 MIXED-MODE SPECIMENS . 551 10.6.3 FRACTURE MECHANICAL VALUES OF FIBER COMPOSITE MATERIALS . 554 10.7 DEDICATED TEST METHODS . 555 10.7.1 EDGE DELAMINATION TEST (EDT) . 555 10.7.2 BOEING OPEN-HOLE COMPRESSION TEST . 556 10.8 PEEL STRENGTH OF FLEXIBLE LAMINATES . 557 10.9 IMPACT LOADING AND DAMAGE TOLERANCE . 559 10.10 COMPILATION OF STANDARDS AND GUIDELINES . 562 11 TECHNOLOGICAL TESTING METHODS . 569 11.1 HEAT DISTORTION RESISTANCE . 569 11.1.1 FUNDAMENTALS AND DEFINITIONS . 569 11.1.2 DETERMINING HEAT DISTORTION RESISTANCE TEMPERATURE HDT AND VICAT SOFTENING TEMPERATURE . 570 11.1.3 PRACTICAL EXAMPLES FOR THE INFORMATIONAL VALUE OF THE VICAT AND HDT TEST . 573 11.2 FIRE BEHAVIOR . 577 11.2.1 INTRODUCTION . 577 11.2.2 STAGES OF A FIRE AND FIRE-DETERMINING PARAMETERS . 579 11.2.3 FIRE TESTS . 581 11.2.3.1 SMOLDERING FIRE . 582 11.2.3.2 IGNITABILITY . 583 11.2.3.3 FLAME SPREAD . 587 11.2.3.4 HEAT RELEASE . 590 11.2.3.5 FIRE RESISTANCE . 592 11.2.3.6 EASE OF EXTINCTION . 592 11.2.4 UTILIZATION OF CONE CALORIMETER TO CHARACTERIZE FIRE BEHAVIOR . 594 11.3 COMPONENT TESTING . 600 11.3.1 INTRODUCTION . 600 11.3.2 BASIC TESTING METHODS . 601 11.3.2.1 GENERAL REMARKS . 601 11.3.2.2 TESTING VISIBLE FEATURES . 601 11.3.2.3 TESTING MATERIALS PROPERTIES . 603 11.3.2.4 TESTING SERVICEABILITY . 605 11.3.3 TESTING PLASTIC PIPING . 606 11.3.3.1 QUALITY ASSURANCE FOR PLASTIC PIPING . 606 11.3.3.2 TESTING HYDROSTATIC RUPTURE STRENGTH FOR PLASTIC PIPES . 608 11.3.4 TESTING PLASTICS COMPONENTS FOR APPLICATION IN VEHICLE DESIGN 611 11.3.4.1 TEST REQUIREMENTS . 611 11.3.4.2 MECHANICAL TESTS . 611 11.3.4.3 PERMEATION AND EMISSION TESTS . 613 11.3.5 TESTING PLASTICS COMPONENTS FOR APPLICATION IN BUILDING CONSTRUCTION . 616 11.3.5.1 INTRODUCTION . 616 11.3.5.2 TESTING SANDWICH PANELS . 617 11.3.5.3 TESTING PLASTIC CASING PIPES . 620 11.4 IMPLANT TESTING . 624 11.4.1 INTRODUCTION . 624 11.4.2 PUSH-OUT TESTS FOR IMPLANTS . 626 11.4.3 TESTING THE APPLICATION BEHAVIOR OF PHARYNGOTRACHEAL VOICE PROSTHESES . 629 11.4.4 DETERMINING THE MECHANICAL PROPERTIES OF HUMAN CARTILAGE . 632 11.5 COMPILATION OF STANDARDS . 634 12 TESTING OF POLYMERIC FILMS . 643 12.1 BASICS . 643 12.2 DETERMINATION OF MECHANICAL PROPERTIES OF FILMS . 644 12.2.1 TENSILE TEST . 644 12.2.2 TEAR TEST . 647 12.2.3 IMPACT BEHAVIOR . 648 12.2.3.1 TENSILE-IMPACT TEST . 648 12.2.3.2 DYNAMIC TEAR TESTING . 651 12.2.3.3 PUNCTURE TESTS . 653 12.3 CHARACTERIZATION OF SEPARATION BEHAVIOR . 657 12.3.1 PEEL TESTS . 657 12.3.2 CLING TEST . 666 12.4 FRACTURE MECHANICS CHARACTERIZATION . 668 12.5 CHARACTERIZATION OF FILM SURFACES . 672 12.6 COMPILATION OF STANDARDS AND GUIDELINES . 675 13 TESTING OF MICROCOMPONENTS . 679 13.1 INTRODUCTION . 679 13.2 MICROSPECIMEN TESTING . 682 13.2.1 MICRO-TENSILE TESTS . 682 13.2.2 FRACTURE MECHANICS INVESTIGATIONS USING MINI COMPACT TENSION (CT) SPECIMENS . 687 13.3 NANOINDENTATION TESTING . 689 13.4 TESTING METHODS ON THEIR WAY TO THE NANOWORLD . 691 13.4.1 NON-CONTACTING DISPLACEMENT FIELD ANALYSIS USING DIGITAL IMAGE CORRELATION (GRAY-VALUE CORRELATION ANALYSIS) . 691 13.4.2 IN-SITU DEFORMATION MEASUREMENT WITH ATOMIC FORCE MICROSCOPY (AFM) . 693 INDEX . 701
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genre	(DE-588)4123623-3 Lehrbuch gnd-content
genre_facet	Lehrbuch
id	DE-604.BV048294756
illustrated	Illustrated
index_date	2024-07-03T20:04:44Z
indexdate	2024-07-10T09:34:27Z
institution	BVB
institution_GND	(DE-588)1064064051
isbn	9781569908068
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-033674657
oclc_num	1227033109
open_access_boolean
owner	DE-210 DE-12 DE-92 DE-91G DE-BY-TUM
owner_facet	DE-210 DE-12 DE-92 DE-91G DE-BY-TUM
physical	XLII, 714 Seiten Illustrationen, Diagramme 25 cm
publishDate	2022
publishDateSearch	2022
publishDateSort	2022
publisher	Carl Hanser Verlag
record_format	marc
spelling	Polymer Testing Wolfgang Grellmann, Sabine Seidler (Eds.) ; with contribution by Volker Altstädt [und 12 weitere] 3rd edition Munich Carl Hanser Verlag [2022] ©2022 XLII, 714 Seiten Illustrationen, Diagramme 25 cm txt rdacontent n rdamedia nc rdacarrier Kunststoffprüfung (DE-588)4166070-5 gnd rswk-swf Werkstoffprüfung (DE-588)4037934-6 gnd rswk-swf Kunststoff (DE-588)4033676-1 gnd rswk-swf Kunststoffe Prüftechnik Werkstoffprüfung FBKTANAL: Werkstoffprüfung und Analytik PLAS2021 Composite materials Material testing Mechanical properties Nondestructive testing Part properties Plastics testing Product safety Stress cracking resistance Tensile test (DE-588)4123623-3 Lehrbuch gnd-content Kunststoffprüfung (DE-588)4166070-5 s DE-604 Kunststoff (DE-588)4033676-1 s Werkstoffprüfung (DE-588)4037934-6 s Grellmann, Wolfgang 1949- (DE-588)122373421 edt Seidler, Sabine 1961- (DE-588)1071840517 edt Hanser Publications (DE-588)1064064051 pbl Erscheint auch als Online-Ausgabe 978-1-56990-807-5 Erscheint auch als Online-Ausgabe, EPUB 978-1-56990-808-2 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033674657&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p vlb 20201209 DE-101 https://d-nb.info/provenance/plan#vlb
spellingShingle	Polymer Testing Kunststoffprüfung (DE-588)4166070-5 gnd Werkstoffprüfung (DE-588)4037934-6 gnd Kunststoff (DE-588)4033676-1 gnd
subject_GND	(DE-588)4166070-5 (DE-588)4037934-6 (DE-588)4033676-1 (DE-588)4123623-3
title	Polymer Testing
title_auth	Polymer Testing
title_exact_search	Polymer Testing
title_exact_search_txtP	Polymer Testing
title_full	Polymer Testing Wolfgang Grellmann, Sabine Seidler (Eds.) ; with contribution by Volker Altstädt [und 12 weitere]
title_fullStr	Polymer Testing Wolfgang Grellmann, Sabine Seidler (Eds.) ; with contribution by Volker Altstädt [und 12 weitere]
title_full_unstemmed	Polymer Testing Wolfgang Grellmann, Sabine Seidler (Eds.) ; with contribution by Volker Altstädt [und 12 weitere]
title_short	Polymer Testing
title_sort	polymer testing
topic	Kunststoffprüfung (DE-588)4166070-5 gnd Werkstoffprüfung (DE-588)4037934-6 gnd Kunststoff (DE-588)4033676-1 gnd
topic_facet	Kunststoffprüfung Werkstoffprüfung Kunststoff Lehrbuch
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033674657&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT grellmannwolfgang polymertesting AT seidlersabine polymertesting AT hanserpublications polymertesting

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