Effect of FCAW Process Parameters on Weld Bead Geometry in Stainless Steel Cladding

Abstract

Recently automated and / or robotic welding systems have received a great deal of attention because they are highly suitable not only to enhance production rate and quality, but also to decrease cost and time to manufacture for a given product. To get the desired quality welds it is essential to have complete control over the relevant process parameters in order to obtain the required bead geometry. Mathematical models need to be developed to have such control and to make effective use of automated and / or robotic arc welding process.

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V. Kumar and N. Murugan, "Effect of FCAW Process Parameters on Weld Bead Geometry in Stainless Steel Cladding," Journal of Minerals and Materials Characterization and Engineering, Vol. 10 No. 9, 2011, pp. 827-842. doi: 10.4236/jmmce.2011.109064.

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1] Chandle .R.S, “Mathematical modeling of gas metal arc weld features”, Proceeding of the Fourth International Conference on Modeling and Casting of Welding Processes, USA, April 10th 1983, pp 109-120.
[2] Doumanidis .G, Hale .M, “Multivariable control of arc welding process”, Proceedings of the International Conference on Trends in Welding Research, Gatlinburg, USA, 18-22nd May 1986, pp 440-457.
[3] Wells .T.C, “A review of surface treatments and coatings”, Surfacing Journal, Vol. 9, No.4, 1978, pp 2-9.
[4] Murugan .N, Parmer .R .S, “Mathematical models for bead geometry prediction in austenitic stainless steel surfacing by MIG welding”, Int. J Join Mater 7(23): 1995, pp 71 - 80
[5] Murugan .N, Parmar .R .S, “Stainless steel cladding deposited by automatic gas metal arc welding”, Weld J 76 (10): 1997, pp 391-s – 402-s.
[6] Montgomery .D .C, Runger .G .C, “Applied statistics and probability for engineers”, 2nd edn. Wiley, New York, 1999.
[7] Walpole .R .E, Myers .R .H, “Probability and statistics for engineers and scientists”, 6th edn. Prentice Hall, Upper Saddle River, NJ, 1998.
[8] Cheremisinoff .N .P, “Practical statistics for engineers and scientists”, Technomic Publishing, Lancaster, PA, 1987.
[9] Cochran .W .G, Cox .G .M, “Experimental designs”, 2nd edn, Wiley, Singapore, 1957.
[10] Khuri .A .L, Cornell .J .A, “Response surfaces, designs and analyses”, Marcell Dekker, New York, 1996.
[11] Montgomery .D .C, “Design and analysis of experiments”, 5th edn. Wiley, New York, 2001.
[12] Andre I. Khuri and John A. Cornell, “Response Surfaces – Design and Analysis”, Marcel Dekker, Inc., New York, 1970.
[13] Palani .P .K, “Development of mathematical models for prediction of weld bead geometry in cladding by flux cored arc welding”, The International Journal of Advanced Manufacturing Technology, 10/2006.
[14] Drayton .P.A, “An examination of the influence of the process parameter in Submerged arc welding”, Institute Research Report, 1970R/RB/PE4/70.
[15] Jean Cornu, “Advanced Welding Systems”, Vol.2, IFS Publications Ltd., U.K., 1988.

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