Weld-bead profile and costs optimisation of the CO2 dissimilar laser welding process of low carbon steel and austenitic steel AISI316

The dissimilar full depth laser-butt welding of low carbon steel and austenitic steel AISI 316 was investigated using CW 1.5kW CO2 laser. The effect of laser power (1.1-1.43kW), welding speed (25-75cm/min) and focal point position (a degree 0.8 to a degree 0.2mm) on the weld-bead geometry (i.e. weld...

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Bibliographic Details
Published in:Optics and laser technology 2011-02, Vol.43 (1), p.82-90
Main Authors: RUGGIERO, A, TRICARICO, L, OLABI, A. G, BENYOUNIS, K. Y
Format: Article
Language:English
Subjects:
Austenitic stainless steels
Biological and medical applications
Exact sciences and technology
Fundamental areas of phenomenology (including applications)
Gas lasers including excimer and metal-vapor lasers
Industrial applications
Laser beam welding
Lasers
Low carbon steels
Mathematical analysis
Mathematical models
Optics
Optimization
Physics
Regression
Steels
Welding
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Summary:The dissimilar full depth laser-butt welding of low carbon steel and austenitic steel AISI 316 was investigated using CW 1.5kW CO2 laser. The effect of laser power (1.1-1.43kW), welding speed (25-75cm/min) and focal point position (a degree 0.8 to a degree 0.2mm) on the weld-bead geometry (i.e. weld-bead area, A; upper width, W u ; lower width, W l and middle width, W m ) and on the operating cost C was investigated using response surface methodology (RSM). The experimental plan was based on Box-Behnken design; linear and quadratic polynomial equations for predicting the weld-bead widthness references were developed. The results indicate that the proposed models predict the responses adequately within the limits of welding parameters being used. The regression equations were used to find optimum welding conditions for the desired geometric criteria.
ISSN:0030-3992
1879-2545
DOI:10.1016/j.optlastec.2010.05.008