Verfügbarkeit: Dynamic mechanical analysis

Dynamic mechanical analysis: a practical introduction

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1. Verfasser:	Menard, Kevin P. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton, FL [u.a.] CRC Press 2008
Ausgabe:	2. ed.
Schlagworte:	Materials > Testing Rheology Polymere Thermodynamische Eigenschaft Mechanische Eigenschaft
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references and index
Beschreibung:	XIX, 218 S. Ill., graph. Darst.
ISBN:	1420053124 9781420053128

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adam_text	Titel: Dynamic mechanical analysis Autor: Menard, Kevin P Jahr: 2008 Contents Author s Preface.....................................................................................................xi Foreword to the First Edition.............................................................................xiii Foreword to the Second Edition...........................................................................xv Acknowledgments................................................................................................xvii Author....................................................................................................................xix Chapter 1 An Introduction to Dynamic Mechanical Analysis.............................1 1.1 A Brief History of DMA...................................................................................1 1.2 Basic Principles.................................................................................................2 1.3 Sample Applications..........................................................................................4 1.4 Creep-Recovery Testing...................................................................................9 1.5 Aggressive Environments................................................................................10 Notes........................................................................................................................12 Chapter 2 Basic Rheological Concepts Stress, Strain, and Flow.....................................................................15 2.1 Force, Stress, and Deformation.......................................................................15 2.2 Applying the Stress..........................................................................................12 2.3 Hooke s Law: Defining the Elastic Response..................................................20 2.4 Geometry, Sample Shape, and Aspect Ratio...................................................24 2.5 Liquid-Like Flow or the Viscous Limit...........................................................25 2.6 Another Look at Stress-Strain Curves............................................................28 2.7 Appendix: Conversion Factors........................................................................32 Notes........................................................................................................................35 Chapter 3 Rheology Basics Creep-Recovery and Stress Relaxation............................................37 3.1 Creep-Recovery Testing.................................................................................37 3.2 Models to Describe Creep-Recovery Behavior..............................................40 3.3 Analyzing a Creep-Recovery Curve to Fit the Four-Element Model.............41 3.4 Analyzing a Creep Experiment for Practical Use...........................................44 3.5 Creep Ringing.................................................................................................45 3.6 Other Variations on Creep Tests......................................................................45 3.7 Superposition: The Boltzmann Principle........................................................48 3.8 Retardation and Relaxation Times..................................................................49 3.9 Structure-Property Relationships in Creep-Recovery Tests..........................50 vii viii Contents 3.10 Stress Relaxation Experiments........................................................................ 3.11 Constant Gauge Length Tests..........................................................................^3 Notes........................................................................................................................ Chapter 4 Thermomechanical Analysis..............................................................57 4.1 Theory of Thermomechanical Analysis..........................................................57 4.2 Experimental Considerations with TMA Samples..........................................59 4.3 Expansion and ............................................................................................61 4.4 Flexure and Penetration...................................................................................64 4.5 Dilatometry and Bulk Measurements.............................................................65 4.6 Mechanical Tests.............................................................................................65 4.7 PVT Relationship Studies................................................................................67 Notes........................................................................................................................68 Chapter 5 Dynamic Testing and Instrumentation...............................................71 5.1 Applying a Dynamic Stress to a Sample.........................................................71 5.2 Calculating Various Dynamic Properties........................................................74 5.2.1 Calculation from Deformation and Phase Lag....................................75 5.2.2 Calculating Properties from a Measured Stiffness.............................76 5.3 Instrumentation for DMA Tests......................................................................76 5.3.1 Forced Resonance Analyzers..............................................................76 5.3.2 Stress and Strain Control.....................................................................77 5.3.3 Axial and Torsional Deformation........................................................79 5.3.4 Free Resonance Analyzers..................................................................79 5.4 Fixtures or Testing Geometries.......................................................................81 5.4.1 Axial....................................................................................................83 5.4.1.1 Three-Point and Four-Point Bending....................................84 5.4.1.2 Dual and Single Cantilever...................................................85 5.4.1.3 Parallel Plate and Variants....................................................86 5.4.1.4 Bulk.......................................................................................87 5.4.1.5 Extension/Tensile..................................................................87 5.4.1.6 Shear Plates and Sandwiches................................................87 5.4.2 Torsional..............................................................................................88 5.4.2.1 Parallel Plates........................................................................88 5.4.2.2 Cone-and-Plate......................................................................89 5.4.2.3 Couette..................................................................................89 5.4.2.4 Torsional Beam and Braid.....................................................90 5.5 Sample Handling Issues.................................................................................90 5.6 Calibration Issues..........................................................................................................................................91 5.7 Dynamic Experiments........................................................................ 92 Notes............................................................................ ix Contents Chapter 6 Time and Temperature Scans Part I Transitions in Polymers......................................................................95 6.1 Time and Temperature Scanning in the DMA................................................95 6.2 Transitions in Polymers: Overview.................................................................98 6.3 Sub-Tg Transitions..........................................................................................101 6.4 The Glass Transition (Tg or 7......................................................................103 6.5 The Rubbery Plateau, Ta* and Tn..................................................................106 6.6 The Terminal Region.....................................................................................110 6.7 Frequency Dependencies in Transition Studies.............................................112 6.8 Applications...................................................................................................114 6.9 Time-Based Studies.......................................................................................117 6.10 Conclusions....................................................................................................118 Notes......................................................................................................................119 Chapter 7 Time and Temperature Scans Part II Thermosets.......................................................................................123 7.1 Thermosetting Materials: A Review.............................................................123 7.2 Studying Curing Behavior in the DMA: Cure Profiles.................................127 7.3 Photocuring...................................................................................................132 7.4 Modeling Cure Cycles...................................................................................133 7.5 Isothermal Curing Studies.............................................................................133 7.6 Kinetics by DMA: The Roller Model and Other Approaches.......................134 7.7 Mapping Thermoset Behavior: The Gillham-Enns Diagram.......................137 7.8 Quality Control Approaches to Thermoset Characterization.......................138 7.9 Postcure Studies.............................................................................................140 7.10 Conclusions....................................................................................................141 Notes......................................................................................................................142 Chapter 8 Frequency Scans...............................................................................145 8.1 Methods of Performing a Frequency Scan....................................................145 8.2 Frequency Effects on Materials.....................................................................147 8.3 The Deborah Number....................................................................................155 8.4 Frequency Effects on Solid Polymers...........................................................155 8.5 Frequency Effects During Curing Studies....................................................158 8.6 Frequency Studies on Polymer Melts............................................................158 8.7 Normal Forces and Elasticity........................................................................159 8.8 Master Curves and Time-Temperature Superposition..................................161 8.9 Transformations of Data................................................................................167 8.10 Molecular Weight and Molecular Weight Distributions...............................169 8.11 Conclusions....................................................................................................121 Notes......................................................................................................................121 Contents x * Chapter 9 Unusual Conditions and Specialized Tests......................................175 9.1 UV Studies....................................................................................................175 9.1.1 UV Photocures..................................................................................^77 9.1.2 UV Photodegradations...................................................................... 78 9.2 Humidity Studies...........................................................................................^ 9.2.1 Equilibration Times...........................................................................*81 9.2.2 Effects of Humidity in the DMA......................................................182 9.3 Immersion......................................................................................................182 9.3.1 Effects of Solvent on Instrumentation and Measurement.................183 9.3.2 DMA in Solution...............................................................................184 9.4 Hyphenated Techniques.................................................................................186 9.5 Modeling Other Mechanical Tests................................................................187 Notes......................................................................................................................188 Chapter 10 DMA Applications to Real Problems Guidelines........................................................................................191 10.1 The Problem: Material Characterization or Performance...........................191 10.2 Performance Tests: To Model or to Copy....................................................191 10.3 Choosing a Type of Test..............................................................................192 10.4 Characterization..........................................................................................194 10.5 Choosing the Fixture...................................................................................194 10.6 Checking the Response to Loads................................................................197 10.7 Checking the Response to Frequency.........................................................197 10.8 Checking the Response to Time..................................................................197 10.9 Checking the Temperature Response..........................................................198 10.11 Putting It Together.......................................................................................199 10.12 Verify the Results........................................................................................199 10.13 Supporting Data from Other Methods........................................................200 10.14 Appendix: Sample Experiments for the DMA............................................201 10.14.1 TMA Experiments........................................................................201 10.14.2 Stress-Strain Scans......................................................................201 10.14.3 Creep-Recovery Experiments......................................................201 10.14.4 Stress Relaxation..........................................................................202 10.14.5 Dynamic Strain Sweeps................................................................202 10.14.6 Dynamic Temperature Scans........................................................202 10.14.7 Curing Studies.............................................................................202 10.14.8 Frequency Scans.....................................................................202 Notes........................................................................... ZZZIZZZZZ Zzn Index......................................................................................................................205
adam_txt	Titel: Dynamic mechanical analysis Autor: Menard, Kevin P Jahr: 2008 Contents Author's Preface.xi Foreword to the First Edition.xiii Foreword to the Second Edition.xv Acknowledgments.xvii Author.xix Chapter 1 An Introduction to Dynamic Mechanical Analysis.1 1.1 A Brief History of DMA.1 1.2 Basic Principles.2 1.3 Sample Applications.4 1.4 Creep-Recovery Testing.9 1.5 Aggressive Environments.10 Notes.12 Chapter 2 Basic Rheological Concepts Stress, Strain, and Flow.15 2.1 Force, Stress, and Deformation.15 2.2 Applying the Stress.12 2.3 Hooke's Law: Defining the Elastic Response.20 2.4 Geometry, Sample Shape, and Aspect Ratio.24 2.5 Liquid-Like Flow or the Viscous Limit.25 2.6 Another Look at Stress-Strain Curves.28 2.7 Appendix: Conversion Factors.32 Notes.35 Chapter 3 Rheology Basics Creep-Recovery and Stress Relaxation.37 3.1 Creep-Recovery Testing.37 3.2 Models to Describe Creep-Recovery Behavior.40 3.3 Analyzing a Creep-Recovery Curve to Fit the Four-Element Model.41 3.4 Analyzing a Creep Experiment for Practical Use.44 3.5 Creep Ringing.45 3.6 Other Variations on Creep Tests.45 3.7 Superposition: The Boltzmann Principle.48 3.8 Retardation and Relaxation Times.49 3.9 Structure-Property Relationships in Creep-Recovery Tests.50 vii viii Contents 3.10 Stress Relaxation Experiments. 3.11 Constant Gauge Length Tests.^3 Notes. Chapter 4 Thermomechanical Analysis.57 4.1 Theory of Thermomechanical Analysis.57 4.2 Experimental Considerations with TMA Samples.59 4.3 Expansion and .61 4.4 Flexure and Penetration.64 4.5 Dilatometry and Bulk Measurements.65 4.6 Mechanical Tests.65 4.7 PVT Relationship Studies.67 Notes.68 Chapter 5 Dynamic Testing and Instrumentation.71 5.1 Applying a Dynamic Stress to a Sample.71 5.2 Calculating Various Dynamic Properties.74 5.2.1 Calculation from Deformation and Phase Lag.75 5.2.2 Calculating Properties from a Measured Stiffness.76 5.3 Instrumentation for DMA Tests.76 5.3.1 Forced Resonance Analyzers.76 5.3.2 Stress and Strain Control.77 5.3.3 Axial and Torsional Deformation.79 5.3.4 Free Resonance Analyzers.79 5.4 Fixtures or Testing Geometries.81 5.4.1 Axial.83 5.4.1.1 Three-Point and Four-Point Bending.84 5.4.1.2 Dual and Single Cantilever.85 5.4.1.3 Parallel Plate and Variants.86 5.4.1.4 Bulk.87 5.4.1.5 Extension/Tensile.87 5.4.1.6 Shear Plates and Sandwiches.87 5.4.2 Torsional.88 5.4.2.1 Parallel Plates.88 5.4.2.2 Cone-and-Plate.89 5.4.2.3 Couette.89 5.4.2.4 Torsional Beam and Braid.90 5.5 Sample Handling Issues.90 5.6 Calibration Issues.91 5.7 Dynamic Experiments. 92 Notes. ix Contents Chapter 6 Time and Temperature Scans Part I Transitions in Polymers.95 6.1 Time and Temperature Scanning in the DMA.95 6.2 Transitions in Polymers: Overview.98 6.3 Sub-Tg Transitions.101 6.4 The Glass Transition (Tg or 7.103 6.5 The Rubbery Plateau, Ta* and Tn.106 6.6 The Terminal Region.110 6.7 Frequency Dependencies in Transition Studies.112 6.8 Applications.114 6.9 Time-Based Studies.117 6.10 Conclusions.118 Notes.119 Chapter 7 Time and Temperature Scans Part II Thermosets.123 7.1 Thermosetting Materials: A Review.123 7.2 Studying Curing Behavior in the DMA: Cure Profiles.127 7.3 Photocuring.132 7.4 Modeling Cure Cycles.133 7.5 Isothermal Curing Studies.133 7.6 Kinetics by DMA: The Roller Model and Other Approaches.134 7.7 Mapping Thermoset Behavior: The Gillham-Enns Diagram.137 7.8 Quality Control Approaches to Thermoset Characterization.138 7.9 Postcure Studies.140 7.10 Conclusions.141 Notes.142 Chapter 8 Frequency Scans.145 8.1 Methods of Performing a Frequency Scan.145 8.2 Frequency Effects on Materials.147 8.3 The Deborah Number.155 8.4 Frequency Effects on Solid Polymers.155 8.5 Frequency Effects During Curing Studies.158 8.6 Frequency Studies on Polymer Melts.158 8.7 Normal Forces and Elasticity.159 8.8 Master Curves and Time-Temperature Superposition.161 8.9 Transformations of Data.167 8.10 Molecular Weight and Molecular Weight Distributions.169 8.11 Conclusions.121 Notes.121 Contents x * Chapter 9 Unusual Conditions and Specialized Tests.175 9.1 UV Studies.175 9.1.1 UV Photocures.^77 9.1.2 UV Photodegradations.'78 9.2 Humidity Studies.^ 9.2.1 Equilibration Times.*81 9.2.2 Effects of Humidity in the DMA.182 9.3 Immersion.182 9.3.1 Effects of Solvent on Instrumentation and Measurement.183 9.3.2 DMA in Solution.184 9.4 Hyphenated Techniques.186 9.5 Modeling Other Mechanical Tests.187 Notes.188 Chapter 10 DMA Applications to Real Problems Guidelines.191 10.1 The Problem: Material Characterization or Performance.191 10.2 Performance Tests: To Model or to Copy.191 10.3 Choosing a Type of Test.192 10.4 Characterization.194 10.5 Choosing the Fixture.194 10.6 Checking the Response to Loads.197 10.7 Checking the Response to Frequency.197 10.8 Checking the Response to Time.197 10.9 Checking the Temperature Response.198 10.11 Putting It Together.199 10.12 Verify the Results.199 10.13 Supporting Data from Other Methods.200 10.14 Appendix: Sample Experiments for the DMA.201 10.14.1 TMA Experiments.201 10.14.2 Stress-Strain Scans.201 10.14.3 Creep-Recovery Experiments.201 10.14.4 Stress Relaxation.202 10.14.5 Dynamic Strain Sweeps.202 10.14.6 Dynamic Temperature Scans.202 10.14.7 Curing Studies.202 10.14.8 Frequency Scans.202 Notes."ZZZIZZZZZ'Zzn Index.205
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title	Dynamic mechanical analysis a practical introduction
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title_full	Dynamic mechanical analysis a practical introduction Kevin P. Menard
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title_short	Dynamic mechanical analysis
title_sort	dynamic mechanical analysis a practical introduction
title_sub	a practical introduction
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topic_facet	Materials Testing Rheology Polymere Thermodynamische Eigenschaft Mechanische Eigenschaft
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