Process Parameter Optimization in Resistance Spot Welding of Dissimilar Thickness Materials
Authors: Pradeep M., N. S. Mahesh, Raja Hussain
Abstract:
Resistance spot welding (RSW) has been used widely to join sheet metals. It has been a challenge to get required weld quality in spot welding of dissimilar thickness materials. Weld parameters are not generally available in standards for thickness beyond 4mm. This paper presents the welding process design and parameter optimization of RSW used in joining of low carbon steel sheet of thickness 0.8 mm and metal strips of cross section 10 x 5mm for electrical motor applications. Taguchi quality design was adopted for weld current and time optimization using L9 orthogonal array. Optimum process parameters (current- 3.5kA and time- 10 cycles) were obtained from the Taguchi analysis and shear test results. Confirmation experiment result revealed that the weld quality was within acceptable interval. Further, numerical simulation of RSW process was carried out with selected weld parameters to quantify the temperature at faying surface and check for formation of appropriate nugget. The nugget geometry measured after peel test and predicted from numerical validation method were similar and in accordance with the standards.
Keywords: Resistance spot welding, dissimilar thickness, weld parameters, Taguchi method, numerical modeling.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1336917
Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 5195References:
[1] Mohd Zaim Bin Din 2008. Experimental study on strength of spot welded.
[2] Miller 2012. Handbook for Resistance spot welding 003 335D.
[3] A. G. Thakur, September 2010. Application of Taguchi method to determine resistance spot welding conditions austenite stainless steel AISI 304. Journal of Scientific and Industrial Research, Vol. 69.
[4] ANSYS 11.0, Documentation manual, 2010.
[5] Thakur A.G., Rasane A.R., Nandedkar V.M., 2010. Finite Element Analysis of resistance spot welding to study nugget formation. International Journal of Applied Engineering Research, Dindigul, Volume 1, No 3.
[6] C.L. Tsai, W.L. Dai, D.W. Dickinson and J.C. Papritan, December 1991. Analysis and Development of a Real- Time Control Methodology in Resistance Spot Welding. Welding Research Supplement, pp. 339- 351.
[7] WE51S- Squeeze- type resistance spot weld. Copyright 1998. Inter - Industry conference on auto collision repair.