Welding Spatter Reduction and Time Study: A Review

N. T. Parshuramkar, K. S. Rambhad, R. Chandran
Volume 4: Issue 4, Dec 2017, pp 88-90


Author's Information
N. T. Parshuramkar1 
Corresponding Author
1Student, Department of Mechanical Engineering, G.H. Raisoni College of Engineering, Nagpur, India

K. S. Rambhad2
2Assistant Professor, Department of Mechanical Engineering, G.H. Raisoni College of Engineering, Nagpur, India.


R. Chandran3
3UG student, St. Xavier catholic College of Engineering, Chennai, India


Review Article -- Peer Reviewed
Published online – 20 Dec 2017

Open Access article under Creative Commons License

Cite this article – N. T. Parshuramkar, K. S. Rambhad, R. Chandran, “Welding Spatter Reduction and Time Study: A Review”, International Journal of Analytical, Experimental and Finite Element Analysis, RAME Publishers, vol. 4, issue 4, pp. 88-90, Dec 2017.
https://doi.org/10.26706/IJAEFEA.4.4.20171025


Abstract:-
There are number of welding strategies accessible for welding materials. The present paper relates different strategies for diminished in weld scatter. The decision of the welding relies upon a few elements; basically among them are the compositional scope of the material to be welded, the thickness of the base materials and sort of current. This paper concentrate on strategy for applying hostile to scatter fluid with or without change in parameter utilized as a part of welding on the surface of body to reduce and simple evacuation of the surface adherence of weld splash on the gatherings.
Index Terms:-
Anti-spatter, welding, adherence, anti-spatter silicon-sprays, anti-spatter water-based-cream
REFERENCES
[1] Whelan, M., "Arc Lamps", Resources, Edison Tech Center, Retrieved November 22, 2014.

[2] Anders Robert E., “Art of welding” US 3330965 A, united states patents 2, 394.

[3] Cary, Howard B; Helzer, Scott C., Modern Welding Technology, Upper Saddle River, New Jersey: Pearson Education, ISBN 0-13-113029-3, 2005.

[4] N. Jeyaprakash, Adisu Haile, M. Arunprasath, “The parameters and equipments used in tig welding: a review”, The International Journal of Engineering And Science (IJES), 2015.

[5] Scott L. Graham, Rudy A. Holzer, John F. Gerbic “System and Method for Reducing Weld Spatter” US 20070284350 A1 , 2007.

[6] Jeffrey W. Maxwell, Xenophon George Saquet, “Barrier coatings” US 6811821 B2 , 2004.

[7] Lester W. Jordan, Joseph F. Loersch, Robert G. Adinolfi, “Weld spatter protective coating”. US 4532403 A ,1984.

[8] Do Won Seo, Yang Bae Jeon, Jae Kyoo Lim “Effect of Electric Weld Current on Spatter Reduction in Spot Welding Process”, pp. 261-263, 2015.

[9] Young-Cheol Jeong, Yoon-Gyo Jung and Young-Tae Cho, “Simple monitoring of welding spatter for quantification and observation using a mobile phone”, Advances in Mechanical Engineering, 2017.


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