Evaluation and optimization of textile ultrasonic welds for textile temperature control elements using transient thermal numerical analysis

Alexander Reich; Yordan Kyosev; Hassan Saeed

doi:10.25367/cdatp.2024.5.p11-19

Authors

Alexander Reich TU Dresden, Chair of Development and Assembly of Textile Products, ITM, Dresden, Germany
Yordan Kyosev TU Dresden, Chair of Development and Assembly of Textile Products, ITM, Dresden, Germany https://orcid.org/0000-0003-3376-1423
Hassan Saeed TU Dresden, Chair of Development and Assembly of Textile Products, ITM, Dresden, Germany https://orcid.org/0000-0002-7391-3551

DOI:

https://doi.org/10.25367/cdatp.2024.5.p11-19

Abstract

Ultrasonic welding is an efficient method of joining thermoplastic fabrics or other textile semi-finished products in a watertight manner. It is applied in the making of functional clothing, such as chemical protective clothing, sportswear or smart clothing, or other technical products. Another special field of application developed at the Chair of Development and Assembly of Textile Products is the use of coated textiles as temperature control elements. For this type of product, it is necessary to design the ultrasonic welds in such a way that the media-tight coating is not damaged and the joint is continuous. This paper presents the option of evaluating and optimizing the ultrasonic welding process for the production of the textile tempering systems using transient thermal analysis in order to improve the overall quality of the seam and ensure media tightness along the seam.

In the following article, the status of the welding process, in particular the ultrasonic process, the textile materials, the heating of the textile and the joining process of welding is presented. In addition, the transient heat flow through the textile is investigated with the aid of FEM methods; taking into account, various seam structures.

References

DIN EN ISO 4063:2011-03, Welding and allied processes – Nomenclature of processes and reference numbers. Beuth, 2011.

Endre, N., Ferenc, T. Ruhaipari kezeköny: 6. Hegesztés; Budapest, 1979.

Rödel, H, Hund. R.-D. Experimentelle Evaluierung der Mikroprozesse beim Textilschweißen am Beispiel des Ultraschallschweißens und Ableitung von Maßnahmen zur gezielten Einstellung der Schweißnahteigenschaften (IGF-BR 17762); Dresden, ITM, 2015.

Zein El Dine, S. Ermüdungssicherheit der Schweißnähte an Ringflanschverbindungen in turmartigen Stahlbauten; Cuvillier Verlag, 2008.

Krzywinski, S.; Felsmann, C.; Rösler, M.; Gritzki, R.; Reich, A.. Abschlussbericht: Simulation und experimentelle Evaluierung thermoaktiver Raumtextilien für die energieeffiziente Heizung und Kühlung von Räumen. 2021.

Reich, A.; Kyosev, Y. Numerical optimization of the seam allowances during ultrasonic welding of textile materials. In: Proceedings XVth International Izmir Textile and Apparel Symposium, Izmir, October 26-27, 2021.

Ottl, D. Schwingungen mechanischer Systeme mit Strukturdämpfung. Düsseldorf, VDI-Verlag 1981 (VDI-Forschungsheft Nr. 603), 1981.

Ahrens, R.; Ottl, D. Modalanalyse trotz frequenzabhängiger Steifigkeiten und Dämpfungen? In VDI-Wissensforum (Hrsg.): Experimentelle und rechnerische Modalanalyse sowie Identifikation dynamischer Systeme; VDI Schwingungstagung, Kassel, Germany, 2000.

Solidworks. Analyse-Solver. help.solidworks.com/2019/german/solidworks/cworks/c_analysis_solvers.htm (accessed 2021-04-14).