Optimisation of High Frequency Seam Welding Parameters By Taguchi Method
DOI:
https://doi.org/10.51983/ajeat-2013.2.2.661Keywords:
Self High Frequency Pipe welding, Welding current and frequency, Tensile strength, Taguchi MethodAbstract
Seam welding is a versatile and most widely used method of fabrication in pipe and tube industries. A seam weld is a series of overlapping resistance spot welds made progressively along a joint by rotating circular electrodes. With the operating conditions becoming more and more stringent and the increased use of seam welded pipe joints in Industrial and domestic pipelines, the improvement in mechanical properties have become increasingly important. In this study, process parameters viz. Welding current, frequency of current, Roll Pressure and weld speed of Therma Tool welding machine were studied at three levels in a reputed company of Northern India by using L9(3)4 orthogonal arrays of Taguchi method to study tensile strength of electric resistance welding of pipes of 15 mm diameter of Class B. “Welding speed” was found to be contributing the most i.e. 45.43% in variation of Tensile strength followed by “roll pressure” which is contributing 22.93%. The parameter “Welding Current” contributing 20.92% and “Weld current frequency” is affecting least to variation being 10.58% of total variation of process. Lower levels of weld speed and Roll pressure, medium level of welding current and higher level of current frequency resulted in improvement in Tensile strength of pipes by 11.8%.
References
Nichols Robert K. (2004), “Common HF Welding Defects”, Engineering Failure Analysis, vol.27, pp. 348-357.
Quickel G. T., B. C. Rollins, and Beavers J. A, (2008), “Analysis of seam weld related pipeline failures”, Materials Science and Technology (MS&T), pp. 513-523.
Xiaomeng Wu, (2009), “Detection of Weld Line Defect for Oilgas Pipeline Based on X-rays Image Processing”, Nanchang, P. R. China, pp. 273 to 275.
Kim Choong Myeong and Kim Jung Kyu, (2009), “The effect of electromagnetic forces on the penetrator formation during highfrequency electric resistance welding”, Journal of materials processing technology, Vol. 209, pp. 838 to 846.
Babakri Khalid Ali, (2010) , “Improvements in flattening test performance in high frequency induction welded steel pipe mill”, Journal of Materials Processing Technology, vol. 210 , pp. 2171 to 2177. Chung P.C. , Ham Yoonjin, Kim Sanghoon , Lim Jeongho and Lee Changhee (2012), “Effects of post-weld heat treatment cycles on microstructure and mechanical properties of electric resistance welded pipe welds”, Materials and Design, vol. 34, pp. 685 to 690.
Wang Zongyue Bi, Rong and Jing Xiaotian, (2012), “Grooving corrosion of oil coiled tubes manufactured by electrical resistance welding”, Corrosion Science, vol. 57, pp. 67 to 73.
Phadke, M. S. (1989), “Quality Engineering Using Robust Design” Prentice Hall, Englewood Cliffs, NJ.
Ross, J.P., “Taguchi technique for quality engineering,” New York: McGraw-Hill.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2013 The Research Publication
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
