Penetration estimation is a prerequisite of the automation of backing welding based on vision sensing technology.However, the arc interference in welding process leads to the di culties of extracting the weld pool characteristic information, which brings great challenges to the penetration estimation. At present, most researches focus on the extraction of weld pool geometry parameters, and the visual sensing systems are complex in structure and complicated in the image processing algorithms. The research of penetration estimation based on weld pool geometry parameters is still in the exploratory stage. The purpose of this paper is to research the relationship between the weld pool geometry parameters and the penetration during backing welding and to estimate penetration using the weld pool geometry parameters. A passive vision sensing test system for gas metal arc(GMA) backing welding was established. An image processing algorithm was developed to extract the weld pool geometry parameters, namely,the area, maximum width and length, half-length, length-width ratio and advancing contact angle(simplified as AWP,MWWP, MLWP, HLWP, LWR and ACA, respectively). The corresponding relationships between the weld pool geometry parameters and the penetration state were explored by analysing their changes with the welding current and speed. The distribution of the weld pool geometry parameters corresponding to penetration was determined. When the AWP of the weld pool is within a certain range and the values of LWR and ACA are close to their maximum and minimum respectively, the penetration is in good condition. A mathematical model with the weld pool geometry parameters as independent variables and the back-bead width(the indicator of the penetration state) as a dependent variable was established based on multivariable linear regression analysis, and relevant statistical tests were carried out. Multivariable linear regression equations for the weld pool geometry parameters and th
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机译:Measurement and Estimation of Weld Pool Surface Depth and Weld Penetration in Pulsed Gas Metal Arc Welding: A relationship between a change in arc voltage at peak current and depth of joint penetration was established
机译:Researchers from Korea Institute of Industrial Technology Detail Findings in Machine Learning (In-process Prediction of Weld Penetration Depth Using Machine Learning-based Molten Pool Extraction Technique In Tungsten Arc Welding)
机译:Penetration and Defect Formation in High-Current Arc Welding: at high currents, the weld pool turns into a thin liquid film, causing humping, undercutting, and fingerlike penetration
机译:煤矿安全与健康调查报告:(露天煤矿),致命事故(机械),2013年1月26日,Watts Welding and Fabricating(NXa),slemp,Kentucky at Begley Resources No.1,T and T Energy,LLC ,海登,莱斯利县,肯塔基州。女士
