The complexity in weld profile caused by abrupt change in polarity in square waveform welding is investigated through the development of a model capable to accurately predict weld profile. A semi-analytical model is conceived wherein characteristic attributes of a composite parabolic–elliptic function, which represent the weld profile, are obtained through nonlinear regression (NLR). The proposed model is demonstrated for its efficacy in the prediction of weld profile over a wide range of welding parameters, vis-à-vis, welding current, frequency, electrode negative (EN) ratio, and welding velocity. The investigation suggests that the center and outer cores of welding arc remains more active during positive and negative polarity, respectively, that leads to distinct macroscopic zones in weld cross section and thus, necessitates a composite profile for representation of weld profile. The intersection of the zones forms a metallurgical notch which the investigation offers a method to estimate and thus control. Unlike the convention continuous arc welding, the waveform arc welding caters welding at higher velocity without compromising the weld penetration and almost abolishing the metallurgical notch as well.
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November 2018
Research-Article
A Semi-Analytical Nonlinear Regression Approach for Weld Profile Prediction: A Case of Alternating Current Square Waveform Submerged Arc Welding of Heat Resistant Steel
Uttam Kumar Mohanty,
Uttam Kumar Mohanty
Department of Mechanical and Aerospace
Engineering,
Indian Institute of Technology Hyderabad,
Sangareddy 502285, India
e-mail: me15resch11004@iith.ac.in
Engineering,
Indian Institute of Technology Hyderabad,
Sangareddy 502285, India
e-mail: me15resch11004@iith.ac.in
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Abhay Sharma,
Abhay Sharma
Department of Mechanical and Aerospace
Engineering,
Indian Institute of Technology Hyderabad,
Sangareddy 502285, India
e-mail: abhay@iith.ac.in
Engineering,
Indian Institute of Technology Hyderabad,
Sangareddy 502285, India
e-mail: abhay@iith.ac.in
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Mitsuyoshi Nakatani,
Mitsuyoshi Nakatani
Technical Research Institute,
Hitachi Zosen Corporation,
Osaka 551-0022, Japan
e-mail: nakatani_m@hitachizosen.co.jp
Hitachi Zosen Corporation,
Osaka 551-0022, Japan
e-mail: nakatani_m@hitachizosen.co.jp
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Akikazu Kitagawa,
Akikazu Kitagawa
Technical Research Institute,
Hitachi Zosen Corporation,
Osaka 551-0022, Japan
e-mail: kitagawa_a@hitachizosen.co.jp
Hitachi Zosen Corporation,
Osaka 551-0022, Japan
e-mail: kitagawa_a@hitachizosen.co.jp
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Manabu Tanaka,
Manabu Tanaka
Joining and Welding Research Institute,
Osaka University,
Osaka 567-0047, Japan
e-mail: tanaka@jwri.osaka-u.ac.jp
Osaka University,
Osaka 567-0047, Japan
e-mail: tanaka@jwri.osaka-u.ac.jp
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Tetsuo Suga
Tetsuo Suga
Joining and Welding Research Institute,
Osaka University,
Osaka 567-0047, Japan
e-mail: suga@jwri.osaka-u.ac.jp
Osaka University,
Osaka 567-0047, Japan
e-mail: suga@jwri.osaka-u.ac.jp
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Uttam Kumar Mohanty
Department of Mechanical and Aerospace
Engineering,
Indian Institute of Technology Hyderabad,
Sangareddy 502285, India
e-mail: me15resch11004@iith.ac.in
Engineering,
Indian Institute of Technology Hyderabad,
Sangareddy 502285, India
e-mail: me15resch11004@iith.ac.in
Abhay Sharma
Department of Mechanical and Aerospace
Engineering,
Indian Institute of Technology Hyderabad,
Sangareddy 502285, India
e-mail: abhay@iith.ac.in
Engineering,
Indian Institute of Technology Hyderabad,
Sangareddy 502285, India
e-mail: abhay@iith.ac.in
Mitsuyoshi Nakatani
Technical Research Institute,
Hitachi Zosen Corporation,
Osaka 551-0022, Japan
e-mail: nakatani_m@hitachizosen.co.jp
Hitachi Zosen Corporation,
Osaka 551-0022, Japan
e-mail: nakatani_m@hitachizosen.co.jp
Akikazu Kitagawa
Technical Research Institute,
Hitachi Zosen Corporation,
Osaka 551-0022, Japan
e-mail: kitagawa_a@hitachizosen.co.jp
Hitachi Zosen Corporation,
Osaka 551-0022, Japan
e-mail: kitagawa_a@hitachizosen.co.jp
Manabu Tanaka
Joining and Welding Research Institute,
Osaka University,
Osaka 567-0047, Japan
e-mail: tanaka@jwri.osaka-u.ac.jp
Osaka University,
Osaka 567-0047, Japan
e-mail: tanaka@jwri.osaka-u.ac.jp
Tetsuo Suga
Joining and Welding Research Institute,
Osaka University,
Osaka 567-0047, Japan
e-mail: suga@jwri.osaka-u.ac.jp
Osaka University,
Osaka 567-0047, Japan
e-mail: suga@jwri.osaka-u.ac.jp
1Corresponding author.
Manuscript received February 19, 2018; final manuscript received July 19, 2018; published online August 31, 2018. Assoc. Editor: Wayne Cai.
J. Manuf. Sci. Eng. Nov 2018, 140(11): 111013 (11 pages)
Published Online: August 31, 2018
Article history
Received:
February 19, 2018
Revised:
July 19, 2018
Citation
Mohanty, U. K., Sharma, A., Nakatani, M., Kitagawa, A., Tanaka, M., and Suga, T. (August 31, 2018). "A Semi-Analytical Nonlinear Regression Approach for Weld Profile Prediction: A Case of Alternating Current Square Waveform Submerged Arc Welding of Heat Resistant Steel." ASME. J. Manuf. Sci. Eng. November 2018; 140(11): 111013. https://doi.org/10.1115/1.4040983
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