DEVELOPMENT OF DESIGN GUIDELINES FOR THERMOPLASTIC WELDED JOINTS IN AEROSPACE APPLICATIONS - A HOLISTIC APPROACH FROM PROCESS TECHNOLOGY TO SIMULATION

Sebastian Hamedinger; Markus Jur; Roland Markus Hinterhölzl; Stephan Becker; Gernot Wallner; Rene Adam

doi:10.60691/yj56-np80

DEVELOPMENT OF DESIGN GUIDELINES FOR THERMOPLASTIC WELDED JOINTS IN AEROSPACE APPLICATIONS - A HOLISTIC APPROACH FROM PROCESS TECHNOLOGY TO SIMULATION

Sebastian Hamedinger^*
, Markus Jur
, Roland Markus Hinterhölzl
, Stephan Becker
, Gernot Wallner
, Rene Adam

^*Korrespondierende/r Autor/-in für diese Arbeit

Publikation: Konferenzbeitrag › Papier › Begutachtung

Abstract

Developing forms of mobility, such as Urban Air Mobility and Advanced Air Mobility, raise the need for enhanced composite joining technologies [28] to satisfy the high demand for lightweight composite components. This research aims to detect relevant welding parameter and combine the findings from processing, testing and simulation in design guidelines to enable an efficient product development. With this paper, promising and established fusion bonding techniques, specifically autoclave co-consolidation, induction and resistance welding, a finite element simulation approach to predict the thermoplastic composite weld performance, an overview of the required testing procedures to determine the needed simulation input parameter, as well as an outlook to the further research proceeding is given.
First research and results are concluding that following design parameter are influencing the weld performance: material, welding area, welding process and process parameter (e.g. heating mechanism, consolidation, temperature distribution), adherend layup, additional polymer plies in the welding zone, fiber orientation in interface layer of the adherends.

Originalsprache	Englisch
Seiten	156-163
Seitenumfang	8
DOIs	https://doi.org/10.60691/yj56-np80
Publikationsstatus	Veröffentlicht - 2024
Veranstaltung	21st European Conference on Composite Materials - La Cité Nantes Events Center, Nantes, Frankreich Dauer: 2 Juli 2024 → 5 Juli 2024 Konferenznummer: 21 https://eccm21.org/

Konferenz

Konferenz	21st European Conference on Composite Materials
Kurztitel	ECCM
Land/Gebiet	Frankreich
Ort	Nantes
Zeitraum	02.07.2024 → 05.07.2024
Internetadresse	https://eccm21.org/

UN SDGs

Dieser Output leistet einen Beitrag zu folgendem(n) Ziel(en) für nachhaltige Entwicklung

SDG 9 – Industrie, Innovation und Infrastruktur

Schlagwörter

thermoplastic welding
simulation
testing
development of design guidelines

Zugriff auf Dokument

10.60691/yj56-np80

AdiosRivet - Advanced design of welded joints for TP-CFRPC reinforced vehicle structures
Hinterhölzl, R. M. (Leitende(r) Forscher/-in), Hamedinger, S. (Weitere Forschende) & Keller, S. (Weitere Forschende)
Future Mobility Call - Land OÖ
01.10.2023 → 30.09.2026
Projekt: Forschungsprojekt

INFLUENCE OF SPECIMEN GEOMETRY AND UD PLY LAYUP ON THERMOPLASTIC WELDED DOUBLE-NOTCHED TENSION TEST SPECIMEN BY USE OF MECHANICAL AND VIRTUAL TESTING
Hamedinger, S. (Redner*in)
6 Aug. 2025
Aktivität: Gespräch oder Vortrag › Vortrag
DEVELOPMENT OF DESIGN GUIDELINES FOR THERMOPLASTIC WELDED JOINTS IN AEROSPACE APPLICATIONS - A HOLISTIC APPROACH FROM PROCESS TECHNOLOGY TO SIMULATION
Hamedinger, S. (Redner*in)
2 Juli 2024
Aktivität: Gespräch oder Vortrag › Vortrag

Zitieren

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title = "DEVELOPMENT OF DESIGN GUIDELINES FOR THERMOPLASTIC WELDED JOINTS IN AEROSPACE APPLICATIONS - A HOLISTIC APPROACH FROM PROCESS TECHNOLOGY TO SIMULATION",

abstract = "Developing forms of mobility, such as Urban Air Mobility and Advanced Air Mobility, raise the need for enhanced composite joining technologies [28] to satisfy the high demand for lightweight composite components. This research aims to detect relevant welding parameter and combine the findings from processing, testing and simulation in design guidelines to enable an efficient product development. With this paper, promising and established fusion bonding techniques, specifically autoclave co-consolidation, induction and resistance welding, a finite element simulation approach to predict the thermoplastic composite weld performance, an overview of the required testing procedures to determine the needed simulation input parameter, as well as an outlook to the further research proceeding is given. First research and results are concluding that following design parameter are influencing the weld performance: material, welding area, welding process and process parameter (e.g. heating mechanism, consolidation, temperature distribution), adherend layup, additional polymer plies in the welding zone, fiber orientation in interface layer of the adherends. ",

keywords = "thermoplastic welding, simulation, testing, development of design guidelines, thermoplastic welding, finite element simulation, mechanical testing, development of design guidelines",

author = "Sebastian Hamedinger and Markus Jur and Hinterh{\"o}lzl, \{Roland Markus\} and Stephan Becker and Gernot Wallner and Rene Adam",

year = "2024",

doi = "10.60691/yj56-np80",

language = "English",

pages = "156--163",

note = "21st European Conference on Composite Materials ; Conference date: 02-07-2024 Through 05-07-2024",

url = "https://eccm21.org/",

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Hamedinger, S, Jur, M, Hinterhölzl, RM, Becker, S, Wallner, G & Adam, R 2024, 'DEVELOPMENT OF DESIGN GUIDELINES FOR THERMOPLASTIC WELDED JOINTS IN AEROSPACE APPLICATIONS - A HOLISTIC APPROACH FROM PROCESS TECHNOLOGY TO SIMULATION', Beitrag in 21st European Conference on Composite Materials, Nantes, Frankreich, 02.07.2024 - 05.07.2024 S. 156-163. https://doi.org/10.60691/yj56-np80

DEVELOPMENT OF DESIGN GUIDELINES FOR THERMOPLASTIC WELDED JOINTS IN AEROSPACE APPLICATIONS - A HOLISTIC APPROACH FROM PROCESS TECHNOLOGY TO SIMULATION. / Hamedinger, Sebastian; Jur, Markus; Hinterhölzl, Roland Markus et al.
2024. 156-163 Beitrag in 21st European Conference on Composite Materials, Nantes, Frankreich.

Publikation: Konferenzbeitrag › Papier › Begutachtung

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AU - Jur, Markus

AU - Hinterhölzl, Roland Markus

AU - Becker, Stephan

AU - Wallner, Gernot

AU - Adam, Rene

N1 - Conference code: 21

PY - 2024

Y1 - 2024

N2 - Developing forms of mobility, such as Urban Air Mobility and Advanced Air Mobility, raise the need for enhanced composite joining technologies [28] to satisfy the high demand for lightweight composite components. This research aims to detect relevant welding parameter and combine the findings from processing, testing and simulation in design guidelines to enable an efficient product development. With this paper, promising and established fusion bonding techniques, specifically autoclave co-consolidation, induction and resistance welding, a finite element simulation approach to predict the thermoplastic composite weld performance, an overview of the required testing procedures to determine the needed simulation input parameter, as well as an outlook to the further research proceeding is given. First research and results are concluding that following design parameter are influencing the weld performance: material, welding area, welding process and process parameter (e.g. heating mechanism, consolidation, temperature distribution), adherend layup, additional polymer plies in the welding zone, fiber orientation in interface layer of the adherends.

AB - Developing forms of mobility, such as Urban Air Mobility and Advanced Air Mobility, raise the need for enhanced composite joining technologies [28] to satisfy the high demand for lightweight composite components. This research aims to detect relevant welding parameter and combine the findings from processing, testing and simulation in design guidelines to enable an efficient product development. With this paper, promising and established fusion bonding techniques, specifically autoclave co-consolidation, induction and resistance welding, a finite element simulation approach to predict the thermoplastic composite weld performance, an overview of the required testing procedures to determine the needed simulation input parameter, as well as an outlook to the further research proceeding is given. First research and results are concluding that following design parameter are influencing the weld performance: material, welding area, welding process and process parameter (e.g. heating mechanism, consolidation, temperature distribution), adherend layup, additional polymer plies in the welding zone, fiber orientation in interface layer of the adherends.

KW - thermoplastic welding

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KW - development of design guidelines

KW - thermoplastic welding

KW - finite element simulation

KW - mechanical testing

KW - development of design guidelines

U2 - 10.60691/yj56-np80

DO - 10.60691/yj56-np80

M3 - Paper

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EP - 163

T2 - 21st European Conference on Composite Materials

Y2 - 2 July 2024 through 5 July 2024

ER -

DEVELOPMENT OF DESIGN GUIDELINES FOR THERMOPLASTIC WELDED JOINTS IN AEROSPACE APPLICATIONS - A HOLISTIC APPROACH FROM PROCESS TECHNOLOGY TO SIMULATION

Abstract

Konferenz

UN SDGs

Schlagwörter

Zugriff auf Dokument

Fingerprint

Projekte

AdiosRivet - Advanced design of welded joints for TP-CFRPC reinforced vehicle structures

Aktivitäten

INFLUENCE OF SPECIMEN GEOMETRY AND UD PLY LAYUP ON THERMOPLASTIC WELDED DOUBLE-NOTCHED TENSION TEST SPECIMEN BY USE OF MECHANICAL AND VIRTUAL TESTING

DEVELOPMENT OF DESIGN GUIDELINES FOR THERMOPLASTIC WELDED JOINTS IN AEROSPACE APPLICATIONS - A HOLISTIC APPROACH FROM PROCESS TECHNOLOGY TO SIMULATION

Zitieren