Verfügbarkeit: Digital twin methodology for the automated fiber placement with in-situ consolidation of thermoplastic tape

Digital twin methodology for the automated fiber placement with in-situ consolidation of thermoplastic tape:

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Bibliographische Detailangaben
1. Verfasser:	Schulz, Malena (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Aachen Apprimus Verlag 2024
Ausgabe:	1. Auflage
Schriftenreihe:	Ergebnisse aus der Produktionstechnik Band 1/2024
Schlagworte:	Leichtbau Thermoplast Faserverstärkter Thermoplast Tapelegen Endabmessungsnahe Fertigung Thermoplastformteil Digitaler Zwilling Produktionstechnik Prozesstechnologie automated fiber placement Hochschulschrift
Online-Zugang:	Volltext Inhaltsverzeichnis
Beschreibung:	XI, 161 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 286 g
ISBN:	9783985551958 3985551952
DOI:	10.18154/RWTH-2024-00971

Internformat

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245	1	0	\|a Digital twin methodology for the automated fiber placement with in-situ consolidation of thermoplastic tape \|c Malena Schulz
246	1	3	\|a Methodik zur Erstellung eines digitalen Zwillings für den Thermoplast-Tapelegeprozess mit in-situ Konsolierung
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Datensatz im Suchindex

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adam_text	INHALTSVERZEICHNIS 1 INTRODUCTION . 1 2 STATE OF THE ART IN RESEARCH AND INDUSTRY . 5 2.1 FIBER-REINFORCED PLASTICS (FRP) . 5 2.2 AUTOMATED FIBER PLACEMENT (AFP) OF THERMOPLASTIC TAPE . 8 2.2.1 DESCRIPTION OF THE AFP PROCESS WITH IN-SITU CONSOLIDATION . 9 2.2.2 MANUFACTURING STRATEGIES OF THERMOPLASTIC FIBER PLACEMENT . 11 2.2.3 THERMOPLASTIC UD-TAPES AND THEIR APPLICATIONS IN INDUSTRY . 14 2.2.4 INTERIM CONCLUSION . 18 2.3 INDUSTRY 4.0 AND THE INTERNET OF PRODUCTION . 19 2.3.1 THE DIFFERENCE BETWEEN A DIGITAL MODEL, SHADOW AND TWIN . 22 2.3.2 ISO 23274: A STANDARD FOR A DIGITAL TWIN FOR MANUFACTURING . 24 2.4 DATA-DRIVEN PROCESS MODELING . 26 2.4.1 MODEL CLASSIFICATION . 27 2.4.2 DATA-DRIVEN MODELING IN PRODUCTION ENGINEERING . 28 2.4.3 DATA-DRIVEN MODELING IN COMPOSITE MANUFACTURING . 32 2.5 CONCLUSION AND DERIVED NEED FOR ACTION . 36 3 OBJECTIVES, TASKS AND MODUS OPERANDI . 39 3.1 PROBLEM DEFINITION AND TARGET . 39 3.2 IMPLEMENTATION. 41 4 A DIGITAL TWIN FOR PROCESS ANALYSIS AND PREDICTION . 45 4.1 ANALYTIC MODELING OF THE AFP PROCESS WITH IN-SITU CONSOLIDATION . 45 4.1.1 TRANSIENT HEAT TRANSFER MODEL . 46 4.1.2 BOND STRENGTH . 51 4.1.3 CRYSTALLINITY . 53 4.1.4 RESIDUAL STRESSES . 56 4.1.5 INFLUENCE OF INCREASED PROCESS SPEEDS . 58 4.1.6 INTERIM CONCLUSION . 60 4.2 EXPERIMENTAL STATUS-QUO ANALYSIS . 61 4.2.1 EXPERIMENTAL SETUP . 61 4.2.2 COOLING TIME . 62 4.2.3 THERMAL BEHAVIOR . . 65 4.2.4 DEGREE OF BONDING (DOB) ESTIMATION AND VALIDATION . 68 4.2.5 INTERIM CONCLUSION . 72 4.3 CREATION OF A DIGITAL TWIN FOR THE AFP WITH IN-SITU CONSOLIDATION . 73 4.3.1 STRUCTURE OF THE DIGITAL TWIN . 73 4.3.2 LOCAL, TRANSIENT TEMPERATURE DERIVATION . 75 4.3.3 GLOBAL, TRANSIENT TEMPERATURE DERIVATION . 77 4.3.4 LOCAL AND GLOBAL QUALITY INDICATORS . 78 4.3.5 ONTOLOGY OF THE AFP PROCESS WITH IN-SITU CONSOLIDATION . 82 4.3.6 INTERACTIVE VISUALIZATION OF THE DIGITAL TWIN . 83 4.4 CONCLUSION . 85 5 EXPERIMENTAL VALIDATION OF THE DIGITAL TWIN . 87 5.1 PREPRO2D PRODUCTION SYSTEM . 87 5.1.1 OPTIMIZED COMPONENTS . 88 5.1.2 MODERN CONTROL ENVIRONMENT . 89 5.2 EXPERIMENTAL DIGITAL TWIN VALIDATION . 91 5.2.1 EXPERIMENTAL DESIGN AND CONDUCT . 91 5.2.2 PROCESS PREDICTION BY DIGITAL TWIN . 94 5.2.3 TEMPERATURE: PREDICTION AND VALIDATION . 95 5.2.4 DEGREE OF BONDING: PREDICTION AND VALIDATION . 102 5.2.5 DEGREE OF CRYSTALLINITY: PREDICTION AND VALIDATION . 105 5.3 SENSITIVITY ANALYSIS . 109 5.4 CONCLUSION . 111 6 ASSESSING PRODUCTIVITY . 113 6.1 DEFINITION OF PRODUCTIVITY . 113 6.1.1 PARAMETERS INFLUENCING PRODUCTIVITY . 115 6.2 PRODUCTIVITY CALCULATION . 118 6.3 EXPERIMENTAL VALIDATION . 120 6.3.1 EXPERIMENTAL PERFORMANCE ANALYSIS . 122 6.3.2 PERFORMANCE PREDICTION . 123 6.4 CONCLUSION . 124 7 A DIGITAL TWIN FOR DERIVING MANUFACTURING STRATEGIES . 125 7.1 INCREASING PERFORMANCE BY INCREASING PROCESS SPEEDS . 125 7.1.1 QUALITY PROPERTIES WITH INCREASED PROCESS SPEEDS . 126 7.1.2 CYCLE TIME AND PRODUCTIVITY WITH INCREASED PROCESS SPEEDS . 127 7.2 LAYUP STRATEGIES . 129 7.2.1 BIDIRECTIONAL LAYUP STRATEGY . 131 7.2.2 RECONSOLIDATION PASSES . 131 7.3 METHODOLOGY FOR AN OPTIMIZED DIGITAL TWIN . 132 7.3.1 THE AFP DIGITAL TWIN WITHIN THE ISO 23274 FRAMEWORK . 132 7.3.2 THE PROCESS FOR A DIGITAL TWIN FOR AFP WITH IN-SITU CONSOLIDATION. 134 7.3.3 PREDICTION ROBUSTNESS . 135 7.4 CONCLUSION . 137 8 SUMMARY AND OUTLOOK . 139 8.1 SUMMARY . 139 8.2 A ROADMAP FOR THE DIGITAL TWIN OF THE AFP PROCESS . 140 9 REFERENCES . 147 A. APPENDIX . 161 A.1 TEMPERATURE PREDICTION FOR 750 MM/S . 161
adam_txt	INHALTSVERZEICHNIS 1 INTRODUCTION . 1 2 STATE OF THE ART IN RESEARCH AND INDUSTRY . 5 2.1 FIBER-REINFORCED PLASTICS (FRP) . 5 2.2 AUTOMATED FIBER PLACEMENT (AFP) OF THERMOPLASTIC TAPE . 8 2.2.1 DESCRIPTION OF THE AFP PROCESS WITH IN-SITU CONSOLIDATION . 9 2.2.2 MANUFACTURING STRATEGIES OF THERMOPLASTIC FIBER PLACEMENT . 11 2.2.3 THERMOPLASTIC UD-TAPES AND THEIR APPLICATIONS IN INDUSTRY . 14 2.2.4 INTERIM CONCLUSION . 18 2.3 INDUSTRY 4.0 AND THE INTERNET OF PRODUCTION . 19 2.3.1 THE DIFFERENCE BETWEEN A DIGITAL MODEL, SHADOW AND TWIN . 22 2.3.2 ISO 23274: A STANDARD FOR A DIGITAL TWIN FOR MANUFACTURING . 24 2.4 DATA-DRIVEN PROCESS MODELING . 26 2.4.1 MODEL CLASSIFICATION . 27 2.4.2 DATA-DRIVEN MODELING IN PRODUCTION ENGINEERING . 28 2.4.3 DATA-DRIVEN MODELING IN COMPOSITE MANUFACTURING . 32 2.5 CONCLUSION AND DERIVED NEED FOR ACTION . 36 3 OBJECTIVES, TASKS AND MODUS OPERANDI . 39 3.1 PROBLEM DEFINITION AND TARGET . 39 3.2 IMPLEMENTATION. 41 4 A DIGITAL TWIN FOR PROCESS ANALYSIS AND PREDICTION . 45 4.1 ANALYTIC MODELING OF THE AFP PROCESS WITH IN-SITU CONSOLIDATION . 45 4.1.1 TRANSIENT HEAT TRANSFER MODEL . 46 4.1.2 BOND STRENGTH . 51 4.1.3 CRYSTALLINITY . 53 4.1.4 RESIDUAL STRESSES . 56 4.1.5 INFLUENCE OF INCREASED PROCESS SPEEDS . 58 4.1.6 INTERIM CONCLUSION . 60 4.2 EXPERIMENTAL STATUS-QUO ANALYSIS . 61 4.2.1 EXPERIMENTAL SETUP . 61 4.2.2 COOLING TIME . 62 4.2.3 THERMAL BEHAVIOR . . 65 4.2.4 DEGREE OF BONDING (DOB) ESTIMATION AND VALIDATION . 68 4.2.5 INTERIM CONCLUSION . 72 4.3 CREATION OF A DIGITAL TWIN FOR THE AFP WITH IN-SITU CONSOLIDATION . 73 4.3.1 STRUCTURE OF THE DIGITAL TWIN . 73 4.3.2 LOCAL, TRANSIENT TEMPERATURE DERIVATION . 75 4.3.3 GLOBAL, TRANSIENT TEMPERATURE DERIVATION . 77 4.3.4 LOCAL AND GLOBAL QUALITY INDICATORS . 78 4.3.5 ONTOLOGY OF THE AFP PROCESS WITH IN-SITU CONSOLIDATION . 82 4.3.6 INTERACTIVE VISUALIZATION OF THE DIGITAL TWIN . 83 4.4 CONCLUSION . 85 5 EXPERIMENTAL VALIDATION OF THE DIGITAL TWIN . 87 5.1 PREPRO2D PRODUCTION SYSTEM . 87 5.1.1 OPTIMIZED COMPONENTS . 88 5.1.2 MODERN CONTROL ENVIRONMENT . 89 5.2 EXPERIMENTAL DIGITAL TWIN VALIDATION . 91 5.2.1 EXPERIMENTAL DESIGN AND CONDUCT . 91 5.2.2 PROCESS PREDICTION BY DIGITAL TWIN . 94 5.2.3 TEMPERATURE: PREDICTION AND VALIDATION . 95 5.2.4 DEGREE OF BONDING: PREDICTION AND VALIDATION . 102 5.2.5 DEGREE OF CRYSTALLINITY: PREDICTION AND VALIDATION . 105 5.3 SENSITIVITY ANALYSIS . 109 5.4 CONCLUSION . 111 6 ASSESSING PRODUCTIVITY . 113 6.1 DEFINITION OF PRODUCTIVITY . 113 6.1.1 PARAMETERS INFLUENCING PRODUCTIVITY . 115 6.2 PRODUCTIVITY CALCULATION . 118 6.3 EXPERIMENTAL VALIDATION . 120 6.3.1 EXPERIMENTAL PERFORMANCE ANALYSIS . 122 6.3.2 PERFORMANCE PREDICTION . 123 6.4 CONCLUSION . 124 7 A DIGITAL TWIN FOR DERIVING MANUFACTURING STRATEGIES . 125 7.1 INCREASING PERFORMANCE BY INCREASING PROCESS SPEEDS . 125 7.1.1 QUALITY PROPERTIES WITH INCREASED PROCESS SPEEDS . 126 7.1.2 CYCLE TIME AND PRODUCTIVITY WITH INCREASED PROCESS SPEEDS . 127 7.2 LAYUP STRATEGIES . 129 7.2.1 BIDIRECTIONAL LAYUP STRATEGY . 131 7.2.2 RECONSOLIDATION PASSES . 131 7.3 METHODOLOGY FOR AN OPTIMIZED DIGITAL TWIN . 132 7.3.1 THE AFP DIGITAL TWIN WITHIN THE ISO 23274 FRAMEWORK . 132 7.3.2 THE PROCESS FOR A DIGITAL TWIN FOR AFP WITH IN-SITU CONSOLIDATION. 134 7.3.3 PREDICTION ROBUSTNESS . 135 7.4 CONCLUSION . 137 8 SUMMARY AND OUTLOOK . 139 8.1 SUMMARY . 139 8.2 A ROADMAP FOR THE DIGITAL TWIN OF THE AFP PROCESS . 140 9 REFERENCES . 147 A. APPENDIX . 161 A.1 TEMPERATURE PREDICTION FOR 750 MM/S . 161
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psigel	ebook
publishDate	2024
publishDateSearch	2024
publishDateSort	2024
publisher	Apprimus Verlag
record_format	marc
series	Ergebnisse aus der Produktionstechnik
series2	Ergebnisse aus der Produktionstechnik Prozesstechnologie
spelling	Schulz, Malena Verfasser (DE-588)1318433703 aut Digital twin methodology for the automated fiber placement with in-situ consolidation of thermoplastic tape Malena Schulz Methodik zur Erstellung eines digitalen Zwillings für den Thermoplast-Tapelegeprozess mit in-situ Konsolierung 1. Auflage Aachen Apprimus Verlag 2024 XI, 161 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 286 g txt rdacontent n rdamedia nc rdacarrier Ergebnisse aus der Produktionstechnik Band 1/2024 Prozesstechnologie Dissertation Rheinisch-Westfälische Technische Hochschule Aachen 2024 Leichtbau (DE-588)4035165-8 gnd rswk-swf Thermoplast (DE-588)4059844-5 gnd rswk-swf Faserverstärkter Thermoplast (DE-588)4626537-5 gnd rswk-swf Tapelegen (DE-588)7631522-8 gnd rswk-swf Endabmessungsnahe Fertigung (DE-588)4401115-5 gnd rswk-swf Thermoplastformteil (DE-588)4124310-9 gnd rswk-swf Digitaler Zwilling (DE-588)1213471362 gnd rswk-swf Produktionstechnik automated fiber placement (DE-588)4113937-9 Hochschulschrift gnd-content Thermoplast (DE-588)4059844-5 s Tapelegen (DE-588)7631522-8 s Digitaler Zwilling (DE-588)1213471362 s Faserverstärkter Thermoplast (DE-588)4626537-5 s Thermoplastformteil (DE-588)4124310-9 s Leichtbau (DE-588)4035165-8 s Endabmessungsnahe Fertigung (DE-588)4401115-5 s DE-604 Apprimus Verlag (DE-588)1068101474 pbl Erscheint auch als Online-Ausgabe, PDF https://doi.org/10.18154/RWTH-2024-00971 Ergebnisse aus der Produktionstechnik Band 1/2024 (DE-604)BV023307578 2024,1 https://doi.org/10.18154/RWTH-2024-00971 Resolving-System kostenfrei Volltext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034990427&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p vlb 20240131 DE-101 https://d-nb.info/provenance/plan#vlb
spellingShingle	Schulz, Malena Digital twin methodology for the automated fiber placement with in-situ consolidation of thermoplastic tape Ergebnisse aus der Produktionstechnik Leichtbau (DE-588)4035165-8 gnd Thermoplast (DE-588)4059844-5 gnd Faserverstärkter Thermoplast (DE-588)4626537-5 gnd Tapelegen (DE-588)7631522-8 gnd Endabmessungsnahe Fertigung (DE-588)4401115-5 gnd Thermoplastformteil (DE-588)4124310-9 gnd Digitaler Zwilling (DE-588)1213471362 gnd
subject_GND	(DE-588)4035165-8 (DE-588)4059844-5 (DE-588)4626537-5 (DE-588)7631522-8 (DE-588)4401115-5 (DE-588)4124310-9 (DE-588)1213471362 (DE-588)4113937-9
title	Digital twin methodology for the automated fiber placement with in-situ consolidation of thermoplastic tape
title_alt	Methodik zur Erstellung eines digitalen Zwillings für den Thermoplast-Tapelegeprozess mit in-situ Konsolierung
title_auth	Digital twin methodology for the automated fiber placement with in-situ consolidation of thermoplastic tape
title_exact_search	Digital twin methodology for the automated fiber placement with in-situ consolidation of thermoplastic tape
title_exact_search_txtP	Digital twin methodology for the automated fiber placement with in-situ consolidation of thermoplastic tape
title_full	Digital twin methodology for the automated fiber placement with in-situ consolidation of thermoplastic tape Malena Schulz
title_fullStr	Digital twin methodology for the automated fiber placement with in-situ consolidation of thermoplastic tape Malena Schulz
title_full_unstemmed	Digital twin methodology for the automated fiber placement with in-situ consolidation of thermoplastic tape Malena Schulz
title_short	Digital twin methodology for the automated fiber placement with in-situ consolidation of thermoplastic tape
title_sort	digital twin methodology for the automated fiber placement with in situ consolidation of thermoplastic tape
topic	Leichtbau (DE-588)4035165-8 gnd Thermoplast (DE-588)4059844-5 gnd Faserverstärkter Thermoplast (DE-588)4626537-5 gnd Tapelegen (DE-588)7631522-8 gnd Endabmessungsnahe Fertigung (DE-588)4401115-5 gnd Thermoplastformteil (DE-588)4124310-9 gnd Digitaler Zwilling (DE-588)1213471362 gnd
topic_facet	Leichtbau Thermoplast Faserverstärkter Thermoplast Tapelegen Endabmessungsnahe Fertigung Thermoplastformteil Digitaler Zwilling Hochschulschrift
url	https://doi.org/10.18154/RWTH-2024-00971 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034990427&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV023307578
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