Analysis of Electromagnetic Field and Temperature Distribution around Narrow Gap in High-frequency Resistance Welding of Steel Pipe

Q4 Engineering

Journal of the Korean Society for Precision Engineering Pub Date : 2023-10-01 DOI:10.7736/jkspe.023.053

Young-Soo Yang, Kang-Yul Bae

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引用次数: 0

Abstract

When a narrow gap was formed under appropriate welding conditions in the steel pipe manufacturing process using highfrequency resistance welding, temperature distribution was analyzed to predict the length of the gap. Assuming the length of the gap from the apex point to the welding point at an applied voltage, and calculating the temperature distribution around the gap, the length of the gap with an appropriate fusion width at the welding point could be estimated. Along with this, the current density and magnetic flux density distributions that appeared in the narrow gap were obtained according to the change in the applied voltage, and the distribution shape and size of the electromagnetic force acting on the gap were also predicted. The current density, magnetic flux density, and electromagnetic force gradually increased along the narrow gap, showing the maximum value at the welding point. In the temperature distribution in the narrow gap, the surface of the front end began to melt at an appropriate applied voltage, and the melting width was the largest at the welding point. As the applied voltage increased, the narrow gap became longer, and the appropriate gap length appeared in proportion to the applied voltage.

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钢管高频电阻焊窄间隙电磁场及温度分布分析

在采用高频电阻焊的钢管制造过程中，在适当的焊接条件下形成窄间隙，通过分析温度分布来预测间隙的长度。假设在外加电压作用下，从顶点到焊接点的间隙长度，并计算间隙周围的温度分布，可以估计出焊接点处具有适当熔合宽度的间隙长度。同时，根据外加电压的变化，得到了狭缝中出现的电流密度和磁通密度分布，并预测了作用在狭缝上的电磁力的分布形状和大小。电流密度、磁通密度和电磁力沿狭缝逐渐增大，在焊接点处达到最大值。在窄间隙的温度分布中，在适当的外加电压下，前端表面开始熔化，熔化宽度在焊接点处最大。随着外加电压的增大，窄隙变长，适当的间隙长度与外加电压成正比。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of the Korean Society for Precision Engineering Engineering-Industrial and Manufacturing Engineering

CiteScore

0.50

自引率

0.00%

发文量

104

期刊介绍： Journal of the Korean Society for Precision Engineering (JKSPE) is devoted to publishing original research articles with high ethical standard on all aspects of precision engineering and manufacturing. Specifically, the journal focuses on articles related to improving the precision of machines and manufacturing processes through implementation of creative solutions that stem from advanced research using novel experimental methods, predictive modeling techniques, and rigorous analyses based on mechanical engineering or multidisciplinary approach. The expected outcomes of the knowledge disseminated from JKSPE are enhanced reliability, better motion precision, higher measurement accuracy, and sufficient reliability of precision systems. The various topics covered by JKSPE include: Precision Manufacturing processes, Precision Measurements, Robotics and Automation / Control, Smart Manufacturing System, Design and Materials, Machine Tools, Nano/Micro Technology, Biomechanical Engineering, Additive Manufacturing System, Green Manufacturing Technology.