Process Parameter Optimization for Wobbling Laser Spot Welding of Ti6Al4V Alloy

Laser beam welding (LBW) coupled with “wobble effect” (fast oscillation of the laser beam) is very promising for high precision micro-joining industry. For this process, similarly to the conventional LBW, the laser welding process parameters play a very significant role in determining the quality of...

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Bibliographic Details
Main Authors: Vakili-Farahani, F., Lungershausen, J., Wasmer, K.
Format: Conference Proceeding
Language:English
Subjects:
beam oscillation
design of experiment
process optimization
Ti6Al4V
titanium alloy
Wobble laser welding
wobbling
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Summary:Laser beam welding (LBW) coupled with “wobble effect” (fast oscillation of the laser beam) is very promising for high precision micro-joining industry. For this process, similarly to the conventional LBW, the laser welding process parameters play a very significant role in determining the quality of a weld joint. Consequently, four process parameters (laser power, wobble frequency, number of rotations within a single laser pulse and focused position) and 5 responses (penetration, width, heat affected zone (HAZ), area of the fusion zone, area of HAZ and hardness) were investigated for spot welding of Ti6Al4V alloy (grade 5) using a design of experiments (DoE) approach. This paper presents experimental results showing the effects of variating the considered most important process parameters on the spot weld quality of Ti6Al4V alloy. Semi-empirical mathematical models were developed to correlate laser welding parameters to each of the measured weld responses. Adequacies of the models were then examined by various methods such as ANOVA. These models not only allows a better understanding of the wobble laser welding process and predict the process performance but also determines optimal process parameters. Therefore, optimal combination of process parameters was determined considering certain quality criteria set.
ISSN:1875-3892
1875-3892
DOI:10.1016/j.phpro.2016.08.050