Abstract
The dissimilar materials of pipe component was produced between A105 forged steel and A312 stainless steel. In order to determine the superiority of the friction-welded component, its thermomechanical behavior was studied. In situ observations and finite elemental analysis recorded the difference in the thermal distribution of the pipe components. The high-speed camera observations revealed a large amount of material flow in stainless steel during welding. The temperature and amount of material flow increased with the increase in heating time. The finite elemental modeling exhibited the presence of maximum temperature at the periphery of the joint. The distribution of heat flow on stainless steel was uniform, while it slowly increased from periphery to the center of the joint for forged steel. The required amount of temperature was obtained at a heating time of 6 s and distributed evenly throughout the joint. Finite elemental modeling and experimental analysis confirmed the growth of temperature at the joint interface as heating time increased.
Similar content being viewed by others
References
Barry G, and Bubar P E, Chapter 17: Welding and NDT (2011) p 357.
Yapp D, and Blackman S A, IIW Doc. No. XII-1786.
Cheepu M, Venkateswarlu D, Rao P N, Muthupandi V, Sivaprasad K, and Che W S, Mater Sci Forum969 (2019) 211.
Muralimohan C H, Muthupandi V, and Sivaprasad K, Procedia Mater Sci5 (2014) 1120.
Cheepu M, Muthupandi V, and Che W S, Appl Mech Mater877 (2018) 157.
Maalekian M, Ph.D. thesis, Graz University of Technology, Austria, 2007.
Cheepu M M, Muthupandi V, and Loganathan S, Mater Sci Forum710 (2012) 620.
Cheepu M, and Che W S, J Weld Join37 (2019) 40.
Muralimohan C H, and Muthupandi V, Adv Mater Res794 (2013) 351.
Cheepu M, Ashfaq M, and Muthupandi V, Trans Indian Inst Met70 (2017) 2591.
Elwazri A M, Wanjara P and Yue S, Mater Sci Eng A404 (2005) 91.
Cheepu M, and Che W S, Trans Indian Inst Met72 (2019) 1597.
Muralimohan C H, Muthupandi V, and Sivaprasad K, Inter J Mater Res105 (2014) 350.
Cheepu M, and Che W S, Trans Indian Inst Met72 (2019) 1563.
Maalekian M, and Cerjak H, in: Proceedings of the 8th International Conference, David S A, DebRoy T, DuPont J N, Koseki T, Smartt B H p 736.
Muralimohan C H, Ashfaq M, Ashiri R, Muthupandi V, and Sivaprasad K, Metall Mater Trans A47 (2016) 347.
Asif M, Shrikrishana K A, Sathiya P, Eng Sci Technol Int J18 (2015) 704.
Muralimohan C H, Haribabu S, Reddy Y H, Muthupandi V, and Sivaprasad K, Procedia Mater Sci5 (2014) 1107.
Author information
Authors and Affiliations
Corresponding author
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Kong, Y.S., Cheepu, M. & Park, Y.W. Effect of Heating Time on Thermomechanical Behavior of Friction-Welded A105 Bar to A312 Pipe Joints. Trans Indian Inst Met 73, 1433–1438 (2020). https://doi.org/10.1007/s12666-020-01900-4
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s12666-020-01900-4