Verfügbarkeit: An Innovative Approach for Simultaneous Measurement of Cure Shrinkage and Thermal Expansion of Reactive Liquids

An Innovative Approach for Simultaneous Measurement of Cure Shrinkage and Thermal Expansion of Reactive Liquids:

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Bibliographische Detailangaben
1. Verfasser:	Berg, David Christian (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Clausthal-Zellerfeld Papierflieger Verlag GmbH 2020
Ausgabe:	1. Auflage
Schlagworte:	Wärmeausdehnung Reaktionsharz Messung Aushärtung > Kunststoff Schwinden Faserverbund Duromere Harzsyteme Bauteileigenschaften Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	verschiedene Seitenzählung Illustrationen, Diagramme
ISBN:	9783869487182 3869487186

Internformat

MARC


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adam_text	CONTENTS LIST OF FIGURES XV LIST OF TABLES XXI LIST OF ACRONYMS XXIII 1 INTRODUCTION 1 1.1 MOTIVATION ................................................................................................ 1 1.2 CONCEPT ...................................................................................................... 2 1.3 STRUCTURE OF THE DISSERTATION .................................................................... 3 LIST OF SYMBOLS XXV 2 STATE OF RESEARCH AND TECHNOLOGY 7 2.1 CURE SHRINKAGE MONITORING ....................................................................... 7 2.1.1 APPLICABLE METHODS OF CURE SHRINKAGE MONITORING .................... 7 2.1.2 DISCUSSION OF CURRENT METHODS FOR CURE SHRINKAGE MONITORING . 10 2.1.3 CONCLUSION ON CURRENT METHODS FOR CURE SHRINKAGE MONITORING 13 2.2 MEASURING THERMAL EXPANSION ................................................................. 13 2.3 DETERMINING THE GEL POINT OF THERMOSETTING RESINS ............................... 14 2.3.1 METHODS USED FOR GEL POINT DETERMINATION ............................... 14 2.3.2 DISCUSSION AND CONCLUSION ON CURRENT METHODS FOR DETERMINING THE GEL POINT .................................................................................. 17 2.4 DETERMINING GLASS TRANSITION TEMPERATURE AND VITRIFICATION POINT ... 17 2.4.1 DISCUSSION AND CONCLUSION ON CURRENT METHODS FOR DETERMINING GLASS TRANSITION TEMPERATURE AND VITRIFICATION POINT ..... 19 2.5 CONCLUSION FROM THE STATE OF RESEARCH AND TECHNOLOGY ......................... 19 3 TECHNOLOGY SELECTION 21 3.1 THICKNESS (OR DISTANCE) MEASUREMENT ...................................................... 21 3.2 POSITIONING ................................................................................................ 24 XI XII CONTENTS 3.3 TEMPERATURE CONTROL .............................................................................. 27 4 EXPERIMENTAL SETUP 29 4.1 TECHNICAL SETUP ........................................................................................ 29 4.1.1 BASEPLATE ........................................................................................ 30 4.1.2 HEIGHT-ADJUSTABLE PLATFORM ............................................................ 30 4.1.3 MICROSTAGE ..................................................................................... 31 4.1.4 MODIFICATIONS TO THE CCS PRIMA ................................................... 31 4.1.5 MODIFICATIONS TO THE DISCOVERY DSC .............................................. 32 4.1.6 DSC FURNACE LID ............................................................................. 32 4.1.7 GPIO MODULE ................................................................................... 33 4.2 SAMPLE PREPARATION .................................................................................. 34 4.2.1 SELECTION OF A SUITABLE DSC PAN ...................................................... 34 4.2.2 FILLING OF THE PAN ............................................................................. 36 5 DATA ACQUISITION, GUI AND EXPERIMENTAL PROCEDURES 39 5.1 DATA ACQUISITION ........................................................................................ 40 5.1.1 ACQUIRING DATA FROM THE MICROSTAGE ............................................. 40 5.1.2 ACQUIRING DATA FROM THE CCS PRIMA ............................................. 41 5.1.3 ACQUIRING DATA FROM THE DISCOVERY DSC ........................................ 43 5.1.4 TRIGGERING ........................................................................................ 43 5.2 GRAPHICAL USER INTERFACE .......................................................................... 44 5.2.1 VIEWPORT ........................................................................................ 45 5.2.2 LIST OF SCANS ..................................................................................... 45 5.2.3 TABBED TOOLBAR ................................................................................ 45 5.3 EXPERIMENTAL PROCEDURE ............................................................................. 46 5.3.1 SCANNING MODES ............................................................................. 47 6 DATA FUSION AND PREPARATION 53 6.1 DATA FUSION ................................................................................................. 53 6.1.1 FUSION OF XY - AND Z-POSITION DATA ................................................ 53 6.1.2 FUSION OF DSC DATA AND XYZ-POSITION DATA .................................. 54 6.2 OUTLIER REMOVAL IN POSITION DATA ............................................................ 57 6.3 PAN COORDINATE SYSTEM ............................................................................. 61 6.3.1 REFERENCE ELLIPSE ............................................................................. 62 6.3.2 REFERENCE PLANE ............................................................................. 63 CONTENTS XIII 6.3.3 ROTATION AROUND Z-AXIS ................................................................. 64 6.3.4 TRANSFORMATION OF DATA POINTS TO THE PAN COORDINATE SYSTEM . . 64 7 DATA ANALYSIS 67 7.1 TEMPERATURE-DEPENDENT MODEL OF THE EMPTY PAN .................................. 70 7.1.1 OUTLIER REMOVAL AND TRANSFORMATION TO THE PAN COORDINATES SYS TEM ..................................................................................... 70 7.1.2 DETERMINATION OF THE CIRCUMFERENCE ELLIPSE IN PAN COORDINATES . 71 7.1.3 DETERMINATION OF THE BOTTOM PLANE ............................................. 71 7.1.4 DETERMINATION OF THE BOTTOM AND BRIM FILLETS AND THE BRIM ANGLE 72 7.1.5 DETERMINATION OF THE TEMPERATURE-SPECIFIC COEFFICIENTS ........... 76 7.1.6 DETERMINATION THE TEMPERATURE DEPENDENCE OF THE EMPTY PAN MODEL .............................................................................................. 76 7.2 MODEL OF THE FULL PAN ............................................................................... 79 7.2.1 TEMPERATURE-DEPENDENT GEOMETRIC MODEL OF THE FULL PAN .... 79 7.2.2 GEOMETRY AND EXPANSION DISTANCE FACTOR MODELS OF THE MENISCI 80 7.3 ANALYSING TEMPERATURE AND Z-POSITION OSCILLATIONS ............................... 87 7.3.1 OSCILLATION DATA EXTRACTION ........................................................... 87 7.3.2 OSCILLATION DATA PROCESSING ........................................................... 90 7.3.3 OSCILLATION DATA FITTING ................................................................. 93 7.4 ADJUSTING CROSS SCANS TO TARGET TEMPERATURE .......................................... 98 7.4.1 ELIMINATION OF THE OSCILLATION OF THE PAN ........................................ 100 7.4.2 ELIMINATION OF THE STEADY RISE OF THE PAN ........................................ 100 7.4.3 ELIMINATION OF THE OSCILLATION OF THE RESIN ...................................... 102 7.4.4 FITTING THE MENISCI OF THE CROSS SCANS .............................................. 102 7.5 ADJUSTING SPOT-OVER-TIME SCANS TO TARGET TEMPERATURE ............................... 104 7.6 GENERATING COMPLETE MENISCI FROM CROSS SCANS ........................................ 106 7.7 CALCULATING VOLUMES AND DENSITIES ............................................................ 109 7.8 EVALUATING CURE KINETICS ............................................................................. 110 7.9 CALCULATING RESULTS ........................................................................................ 114 7.9.1 DETERMINING VOLUMETRIC SHRINKAGE ................................................. 114 7.9.2 DETERMINING THE VOLUMETRIC COEFFICIENT OF THERMAL EXPANSION . 114 7.9.3 DETERMINING GEL AND VITRIFICATION POINTS ........................................ 121 8 EXPERIMENTAL RESULTS AND THEIR ASSESSMENT 123 8.1 INVESTIGATED THERMOSETTING RESINS ............................................................. 123 XIV CONTENTS 8.2 RESULTS FOR RTM 6 ........................................................................................... 126 8.3 RESULTS FOR EP 2400 ........................................................................................ 135 8.4 RESULTS FOR ARALDITE LY 556 ............................................................................. 141 9 POSSIBLE SOURCES OF ERROR 143 9.1 TECHNICAL SETUP AND PAN GEOMETRY ............................................................ 143 9.1.1 RELATIVE POSITIONING BETWEEN THE ELEMENTS OF THE SETUP .............. 143 9.1.2 GEOMETRY OF THE EMPTY PAN ............................................................ 144 9.2 SOURCES OF ERROR IN DATA ANALYSIS .................................................................. 147 9.2.1 ALGORITHM FOR OSCILLATION REMOVAL ................................................. 147 9.2.2 ALGORITHM FOR GENERATING COMPLETE MENISCI FROM CROSS SCANS . . 149 9.3 INFLUENCE OF THERMAL EXPANSION OF THE RESIN ON THE PAN GEOMETRY . . . 149 10 CONCLUSION 151 11 FUTURE WORK 153 A PRINCIPLES OF THICKNESS AND DISTANCE MEASUREMENT A-L A. L INFRARED-INTERFEROMETRIC THICKNESS MEASUREMENT ..................................... A-L A. 2 CHROMATIC-CONFOCAL DISTANCE MEASUREMENT ............................................. A- 2 B VOLUME MEASUREMENT VIA INFRARED INTERFEROMETRY B-5 B. L THEORETICAL CONSIDERATIONS ON THE REFRACTIVE INDEX .................................. B-5 B. 1.1 OPTICAL DISPERSION ............................................................................. B-6 B. 2 OBTAINING THE REFRACTIVE INDEX DURING EXPERIMENTS ............................... B-7 C MATHEMATICS C-13 C. L PATH FOR THE CIRCULAR AREA SCAN .................................................................... C-13 C. 2 FITTING METHODS ........................................................................................... C-14 C. 2.1 LEAST-SQUARES ELLIPSE FITTING WITH BOOKSTEIN CONSTRAINT .............. C-14 C.2. 2 BISQUARE WEIGHTS FOR LEAST-SQUARES FITTING ..................................... C-14 C. 3 SUM OF SINEWAVES ........................................................................................ C-15 D TECHNICAL DRAWINGS D-17 D. L EMBOSSING TOOL ........................................................................................... D-17 D. 2 TRANSPARENT DSC FURNACE LID ....................................................................... D-26 E DATASHEETS E-27 CONTENTS XV E. L DATASHEET OF RTM 6 ....................................................................................... E-27 E. 2 DATASHEET OF EP 2400 .................................................................................. E-32 E.3 DATASHEET OF ARALDITE LY 556 ...................................................................... E-39
adam_txt	CONTENTS LIST OF FIGURES XV LIST OF TABLES XXI LIST OF ACRONYMS XXIII 1 INTRODUCTION 1 1.1 MOTIVATION . 1 1.2 CONCEPT . 2 1.3 STRUCTURE OF THE DISSERTATION . 3 LIST OF SYMBOLS XXV 2 STATE OF RESEARCH AND TECHNOLOGY 7 2.1 CURE SHRINKAGE MONITORING . 7 2.1.1 APPLICABLE METHODS OF CURE SHRINKAGE MONITORING . 7 2.1.2 DISCUSSION OF CURRENT METHODS FOR CURE SHRINKAGE MONITORING . 10 2.1.3 CONCLUSION ON CURRENT METHODS FOR CURE SHRINKAGE MONITORING 13 2.2 MEASURING THERMAL EXPANSION . 13 2.3 DETERMINING THE GEL POINT OF THERMOSETTING RESINS . 14 2.3.1 METHODS USED FOR GEL POINT DETERMINATION . 14 2.3.2 DISCUSSION AND CONCLUSION ON CURRENT METHODS FOR DETERMINING THE GEL POINT . 17 2.4 DETERMINING GLASS TRANSITION TEMPERATURE AND VITRIFICATION POINT . 17 2.4.1 DISCUSSION AND CONCLUSION ON CURRENT METHODS FOR DETERMINING GLASS TRANSITION TEMPERATURE AND VITRIFICATION POINT . 19 2.5 CONCLUSION FROM THE STATE OF RESEARCH AND TECHNOLOGY . 19 3 TECHNOLOGY SELECTION 21 3.1 THICKNESS (OR DISTANCE) MEASUREMENT . 21 3.2 POSITIONING . 24 XI XII CONTENTS 3.3 TEMPERATURE CONTROL . 27 4 EXPERIMENTAL SETUP 29 4.1 TECHNICAL SETUP . 29 4.1.1 BASEPLATE . 30 4.1.2 HEIGHT-ADJUSTABLE PLATFORM . 30 4.1.3 MICROSTAGE . 31 4.1.4 MODIFICATIONS TO THE CCS PRIMA . 31 4.1.5 MODIFICATIONS TO THE DISCOVERY DSC . 32 4.1.6 DSC FURNACE LID . 32 4.1.7 GPIO MODULE . 33 4.2 SAMPLE PREPARATION . 34 4.2.1 SELECTION OF A SUITABLE DSC PAN . 34 4.2.2 FILLING OF THE PAN . 36 5 DATA ACQUISITION, GUI AND EXPERIMENTAL PROCEDURES 39 5.1 DATA ACQUISITION . 40 5.1.1 ACQUIRING DATA FROM THE MICROSTAGE . 40 5.1.2 ACQUIRING DATA FROM THE CCS PRIMA . 41 5.1.3 ACQUIRING DATA FROM THE DISCOVERY DSC . 43 5.1.4 TRIGGERING . 43 5.2 GRAPHICAL USER INTERFACE . 44 5.2.1 VIEWPORT . 45 5.2.2 LIST OF SCANS . 45 5.2.3 TABBED TOOLBAR . 45 5.3 EXPERIMENTAL PROCEDURE . 46 5.3.1 SCANNING MODES . 47 6 DATA FUSION AND PREPARATION 53 6.1 DATA FUSION . 53 6.1.1 FUSION OF XY - AND Z-POSITION DATA . 53 6.1.2 FUSION OF DSC DATA AND XYZ-POSITION DATA . 54 6.2 OUTLIER REMOVAL IN POSITION DATA . 57 6.3 PAN COORDINATE SYSTEM . 61 6.3.1 REFERENCE ELLIPSE . 62 6.3.2 REFERENCE PLANE . 63 CONTENTS XIII 6.3.3 ROTATION AROUND Z-AXIS . 64 6.3.4 TRANSFORMATION OF DATA POINTS TO THE PAN COORDINATE SYSTEM . . 64 7 DATA ANALYSIS 67 7.1 TEMPERATURE-DEPENDENT MODEL OF THE EMPTY PAN . 70 7.1.1 OUTLIER REMOVAL AND TRANSFORMATION TO THE PAN COORDINATES SYS TEM . 70 7.1.2 DETERMINATION OF THE CIRCUMFERENCE ELLIPSE IN PAN COORDINATES . 71 7.1.3 DETERMINATION OF THE BOTTOM PLANE . 71 7.1.4 DETERMINATION OF THE BOTTOM AND BRIM FILLETS AND THE BRIM ANGLE 72 7.1.5 DETERMINATION OF THE TEMPERATURE-SPECIFIC COEFFICIENTS . 76 7.1.6 DETERMINATION THE TEMPERATURE DEPENDENCE OF THE EMPTY PAN MODEL . 76 7.2 MODEL OF THE FULL PAN . 79 7.2.1 TEMPERATURE-DEPENDENT GEOMETRIC MODEL OF THE FULL PAN . 79 7.2.2 GEOMETRY AND EXPANSION DISTANCE FACTOR MODELS OF THE MENISCI 80 7.3 ANALYSING TEMPERATURE AND Z-POSITION OSCILLATIONS . 87 7.3.1 OSCILLATION DATA EXTRACTION . 87 7.3.2 OSCILLATION DATA PROCESSING . 90 7.3.3 OSCILLATION DATA FITTING . 93 7.4 ADJUSTING CROSS SCANS TO TARGET TEMPERATURE . 98 7.4.1 ELIMINATION OF THE OSCILLATION OF THE PAN . 100 7.4.2 ELIMINATION OF THE STEADY RISE OF THE PAN . 100 7.4.3 ELIMINATION OF THE OSCILLATION OF THE RESIN . 102 7.4.4 FITTING THE MENISCI OF THE CROSS SCANS . 102 7.5 ADJUSTING SPOT-OVER-TIME SCANS TO TARGET TEMPERATURE . 104 7.6 GENERATING COMPLETE MENISCI FROM CROSS SCANS . 106 7.7 CALCULATING VOLUMES AND DENSITIES . 109 7.8 EVALUATING CURE KINETICS . 110 7.9 CALCULATING RESULTS . 114 7.9.1 DETERMINING VOLUMETRIC SHRINKAGE . 114 7.9.2 DETERMINING THE VOLUMETRIC COEFFICIENT OF THERMAL EXPANSION . 114 7.9.3 DETERMINING GEL AND VITRIFICATION POINTS . 121 8 EXPERIMENTAL RESULTS AND THEIR ASSESSMENT 123 8.1 INVESTIGATED THERMOSETTING RESINS . 123 XIV CONTENTS 8.2 RESULTS FOR RTM 6 . 126 8.3 RESULTS FOR EP 2400 . 135 8.4 RESULTS FOR ARALDITE LY 556 . 141 9 POSSIBLE SOURCES OF ERROR 143 9.1 TECHNICAL SETUP AND PAN GEOMETRY . 143 9.1.1 RELATIVE POSITIONING BETWEEN THE ELEMENTS OF THE SETUP . 143 9.1.2 GEOMETRY OF THE EMPTY PAN . 144 9.2 SOURCES OF ERROR IN DATA ANALYSIS . 147 9.2.1 ALGORITHM FOR OSCILLATION REMOVAL . 147 9.2.2 ALGORITHM FOR GENERATING COMPLETE MENISCI FROM CROSS SCANS . . 149 9.3 INFLUENCE OF THERMAL EXPANSION OF THE RESIN ON THE PAN GEOMETRY . . . 149 10 CONCLUSION 151 11 FUTURE WORK 153 A PRINCIPLES OF THICKNESS AND DISTANCE MEASUREMENT A-L A. L INFRARED-INTERFEROMETRIC THICKNESS MEASUREMENT . A-L A. 2 CHROMATIC-CONFOCAL DISTANCE MEASUREMENT . A- 2 B VOLUME MEASUREMENT VIA INFRARED INTERFEROMETRY B-5 B. L THEORETICAL CONSIDERATIONS ON THE REFRACTIVE INDEX . B-5 B. 1.1 OPTICAL DISPERSION . B-6 B. 2 OBTAINING THE REFRACTIVE INDEX DURING EXPERIMENTS . B-7 C MATHEMATICS C-13 C. L PATH FOR THE CIRCULAR AREA SCAN . C-13 C. 2 FITTING METHODS . C-14 C. 2.1 LEAST-SQUARES ELLIPSE FITTING WITH BOOKSTEIN CONSTRAINT . C-14 C.2. 2 BISQUARE WEIGHTS FOR LEAST-SQUARES FITTING . C-14 C. 3 SUM OF SINEWAVES . C-15 D TECHNICAL DRAWINGS D-17 D. L EMBOSSING TOOL . D-17 D. 2 TRANSPARENT DSC FURNACE LID . D-26 E DATASHEETS E-27 CONTENTS XV E. L DATASHEET OF RTM 6 . E-27 E. 2 DATASHEET OF EP 2400 . E-32 E.3 DATASHEET OF ARALDITE LY 556 . E-39
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isbn	9783869487182 3869487186
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spelling	Berg, David Christian Verfasser (DE-588)1207104809 aut An Innovative Approach for Simultaneous Measurement of Cure Shrinkage and Thermal Expansion of Reactive Liquids David Christian Berg 1. Auflage Clausthal-Zellerfeld Papierflieger Verlag GmbH 2020 verschiedene Seitenzählung Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Wärmeausdehnung (DE-588)4188843-1 gnd rswk-swf Reaktionsharz (DE-588)4126501-4 gnd rswk-swf Messung (DE-588)4038852-9 gnd rswk-swf Aushärtung Kunststoff (DE-588)4284851-9 gnd rswk-swf Schwinden (DE-588)4131138-3 gnd rswk-swf Faserverbund Duromere Harzsyteme Bauteileigenschaften (DE-588)4113937-9 Hochschulschrift gnd-content Reaktionsharz (DE-588)4126501-4 s Aushärtung Kunststoff (DE-588)4284851-9 s Schwinden (DE-588)4131138-3 s Wärmeausdehnung (DE-588)4188843-1 s Messung (DE-588)4038852-9 s DE-604 Papierflieger Verlag (DE-588)1064204619 pbl DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032166308&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Berg, David Christian An Innovative Approach for Simultaneous Measurement of Cure Shrinkage and Thermal Expansion of Reactive Liquids Wärmeausdehnung (DE-588)4188843-1 gnd Reaktionsharz (DE-588)4126501-4 gnd Messung (DE-588)4038852-9 gnd Aushärtung Kunststoff (DE-588)4284851-9 gnd Schwinden (DE-588)4131138-3 gnd
subject_GND	(DE-588)4188843-1 (DE-588)4126501-4 (DE-588)4038852-9 (DE-588)4284851-9 (DE-588)4131138-3 (DE-588)4113937-9
title	An Innovative Approach for Simultaneous Measurement of Cure Shrinkage and Thermal Expansion of Reactive Liquids
title_auth	An Innovative Approach for Simultaneous Measurement of Cure Shrinkage and Thermal Expansion of Reactive Liquids
title_exact_search	An Innovative Approach for Simultaneous Measurement of Cure Shrinkage and Thermal Expansion of Reactive Liquids
title_exact_search_txtP	An Innovative Approach for Simultaneous Measurement of Cure Shrinkage and Thermal Expansion of Reactive Liquids
title_full	An Innovative Approach for Simultaneous Measurement of Cure Shrinkage and Thermal Expansion of Reactive Liquids David Christian Berg
title_fullStr	An Innovative Approach for Simultaneous Measurement of Cure Shrinkage and Thermal Expansion of Reactive Liquids David Christian Berg
title_full_unstemmed	An Innovative Approach for Simultaneous Measurement of Cure Shrinkage and Thermal Expansion of Reactive Liquids David Christian Berg
title_short	An Innovative Approach for Simultaneous Measurement of Cure Shrinkage and Thermal Expansion of Reactive Liquids
title_sort	an innovative approach for simultaneous measurement of cure shrinkage and thermal expansion of reactive liquids
topic	Wärmeausdehnung (DE-588)4188843-1 gnd Reaktionsharz (DE-588)4126501-4 gnd Messung (DE-588)4038852-9 gnd Aushärtung Kunststoff (DE-588)4284851-9 gnd Schwinden (DE-588)4131138-3 gnd
topic_facet	Wärmeausdehnung Reaktionsharz Messung Aushärtung Kunststoff Schwinden Hochschulschrift
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032166308&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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