2018
DOI: 10.1115/1.4040983
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A Semi-Analytical Nonlinear Regression Approach for Weld Profile Prediction: A Case of Alternating Current Square Waveform Submerged Arc Welding of Heat Resistant Steel

Abstract: 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, v… Show more

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Cited by 15 publications
(5 citation statements)
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“…The results obtained for change in current and welding speed agree with those of Lee et al [22] and Chandel [24]. This outcome further establishes the utility of square waveform arc welding as it is known to support weld penetration, even at very high welding speeds [8].…”
Section: Effect Of Processsupporting
confidence: 85%
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“…The results obtained for change in current and welding speed agree with those of Lee et al [22] and Chandel [24]. This outcome further establishes the utility of square waveform arc welding as it is known to support weld penetration, even at very high welding speeds [8].…”
Section: Effect Of Processsupporting
confidence: 85%
“…Toma et al [6] recommended the AC square waveform over DCEP for better toughness in low-temperature environments. The practical advantages of the AC square waveform encouraged scientific studies using advanced tools, like three-dimensional computational fluid dynamics simulations [7], semi-analytical nonlinear models for weld profile prediction [8], and high-speed videography of metal transfer [9]. The higher heating while a negative electrode increases the melting rate that results in a higher frequency of metal droplet detachment.…”
Section: Introductionmentioning
confidence: 99%
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“…In combination with DCEP (lead wire), the trailing wire with the AC square waveform in tandem welding improves the deposition rate. The waveform control offers a distinct weld bead shape with a bay area (as shown in the later part) that can be computed by composite penetration profile functions depending on materials such as ellipse-ellipse for steel [24] and parabola-ellipse for heat-resistant steel [19].…”
Section: Ac Square-waveform Weldingmentioning
confidence: 99%
“…Square waveform welding has not been extensively investigated for process models as it is one of the latest technologies for SAW. The main areas of investigation for square-waveform welding have been limited to performance evaluation [18], weld bead shape prediction [19], signal processing [20], and thermal modelling [21]. Studies on process models and maps available for conventional submerged arc welding [22] are not reported for square-waveform arc welding.…”
Section: Introductionmentioning
confidence: 99%