Modeling and measurements of temperature field in the arc welding and hybrid plasma-MAG welding heat source models

Damian Rochalski; Dariusz Golański; Jacek Szulc; Przemysław Połaski

doi:10.26628/simp.wtr.v96.1182.107-116

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Published: Jan 1, 2024

DOI: https://doi.org/10.26628/simp.wtr.v96.1182.107-116

Keywords:

numerical modeling, FEA, hybrid, plasma, MAG, heat source

Damian Rochalski

Warsaw University of Technology

Dariusz Golański

Warsaw University of Technology

https://orcid.org/0000-0001-7637-1068

Jacek Szulc

Supra Elco

https://orcid.org/0000-0002-6448-5559

Przemysław Połaski

Warsaw University of Technology

https://orcid.org/0000-0003-2772-7683

Abstract

The modelling of welding processes has recently become one of the most important tools to support the experimental research and the production implementation of welding processes. The literature is very rich in publications containing elements of single source modelling of welding processes, but the growing industrial interest in the use of hybrid welding sources creates a new field for the study of these processes using numerical simulations. In the present study, an attempt has been made to create a conventional and hybrid heat source in a software dedicated to performing numerical simulations using the FEA method - LUSAS FEA 14.7. As a result of the study, based on studies of the temperature field and thermal cycle of welding, it was possible to verify the classical Goldak model. Furthermore, the study showed that the proposed hybrid heat source model fairly well reflects the temperature distribution changes in hybrid welding.

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[1]

D. Rochalski, D. Golański, J. Szulc, and P. Połaski, “Modeling and measurements of temperature field in the arc welding and hybrid plasma-MAG welding heat source models”, Weld. Tech. Rev., vol. 96, pp. 107–116, Jan. 2024.

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Vol. 96 (2024): WELDING TECHNOLOGY REVIEW

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Original Articles

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Welding Technology Review (WTR) articles are published open access under a CC BY licence (Creative Commons Attribution 4.0 International licence). The CC BY licence is the most open licence available and considered the industry 'gold standard' for open access; it is also preferred by many funders. This licence allows readers to copy and redistribute the material in any medium or format, and to alter, transform, or build upon the material, including for commercial use, providing the original author is credited.

References

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