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Modelling and optimization of laser welding of Al2024 aluminium alloy

Upama Dey (School of Laser Science and Engineering, Jadavpur University, Kolkata, India)
Aparna Duggirala (School of Laser Science and Engineering, Jadavpur University, Kolkata, India)
Souren Mitra (Department of Production Engineering, Jadavpur University, Kolkata, India)

World Journal of Engineering

ISSN: 1708-5284

Article publication date: 10 May 2023

Issue publication date: 20 June 2024

136

Abstract

Purpose

Aluminium alloys can be used as lightweight and high-strength materials in combination with the technology of laser beam welding, an efficient joining method, in the manufacturing of automotive parts. The purposes of this paper are to conduct laser welding experiments with Al2024 in the lap joint configuration, model the laser welding process parameters of Al2024 alloys and use propounded models to optimize the process parameters.

Design/methodology/approach

Laser welding of Al2024 alloy has been conducted in the lap joint configuration. Then, the influences of explanatory variables (laser peak power, scanning speed and frequency) on outcome variables (weld width [WW], throat length [TL] and breaking load [BL]) have been investigated with Poisson regression analysis of the data set derived from experimentation. Thereafter, a multi-objective genetic algorithm (MOGA) has been used using MATLAB to find the optimum solutions. The effects of various input process parameters on the responses have also been analysed using response surface plots.

Findings

The promulgated statistical models, derived with Poisson regression analysis, are evinced to be well-fit ones using the analysis of deviance approach. Pareto fronts have been used to demonstrate the optimization results, and the maximized load-bearing capacity is computed to be 1,263 N, whereas the compromised WW and TL are 714 µm and 760 µm, respectively.

Originality/value

This work of conducting laser welding of lap joint of Al2024 alloy incorporating the Taguchi method and optimizing the input process parameters with the promulgated statistical models proffers a neoteric perspective that can be useful to the manufacturing industry.

Keywords

Acknowledgements

This article, to a considerable extent, reports the outcomes of an assignment taken up by the first author in October 2022 under the supervision of the third author while pursuing a Doctor of Philosophy (PhD) degree course at Jadavpur University (2022 to present). This work is in furtherance of the thesis of the first author that was submitted and successfully defended as a part of a Master of Technology (MTech) degree course at the same university in 2021. The first author would like to express gratitude to Mr Dipten Misra, Director, School of Laser Science and Engineering, Jadavpur University for according permission pertaining to the usage of laboratory facilities.

Citation

Dey, U., Duggirala, A. and Mitra, S. (2024), "Modelling and optimization of laser welding of Al2024 aluminium alloy", World Journal of Engineering, Vol. 21 No. 4, pp. 741-753. https://doi.org/10.1108/WJE-10-2022-0421

Publisher

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Emerald Publishing Limited

Copyright © 2023, Emerald Publishing Limited

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