Multi-physics coupling model-based numerical analysis of the effect of electric current path on large cross-section electroslag fusion welding

横截面(物理) 联轴节(管道) 电流(流体) 章节(排版) 焊接 路径(计算) 融合 物理 电流 机械工程 机械 工程类 计算机科学 电气工程 哲学 操作系统 程序设计语言 量子力学 语言学
作者
Haoran Xu,Xuechi Huang,Yu Wang,Yanchun Lou,Zhongqiu Liu,Baokuan Li
出处
期刊:Ironmaking & Steelmaking [Taylor & Francis]
被引量:1
标识
DOI:10.1177/03019233251353313
摘要

This study investigates the effect of different electric current path configurations on electroslag fusion welding (ESFW) process through a coupled multiphysics model, which integrates finite-element and finite-volume methods. ESFW experiments were carried out using a thick steel plate with dimensions of 1090 × 100 × 600 mm under the electrical parameters of 45 V/3000 A and an initial slag thickness of 100 mm, and the accuracy of the model was verified by the experimental data. The analysis focuses on the impacts of electrode-top, electrode-side, and electrode-bottom electric current paths on various physical quantity, including current density distribution, Joule heat generation, temperature field, liquid-phase volume fraction, slag pool flow dynamics, Lorentz force and slag pool morphology. Key results reveal: The skin effect led to high current density and Joule heat density near the electrode in an inverted triangular distribution. The side scheme exhibited a more uniform current density in the slag pool compared to the top and bottom schemes. At 0.5 m welding height, horizontal melt depths were 46.8 mm (−9.8%), 58.7 mm (+13.1%) and 51.9 mm for top, side and bottom schemes, respectively. Slag pool depths measured 32.2 mm (top), 27.1 mm (side) and 29.5 mm (bottom), with Lorentz force-driven circulation enhancing heat transfer in side/bottom schemes. Electrode-top configuration optimised stability, requiring slag replenishment at 542 mm versus 353 mm (side) and 435 mm (bottom). The electrode-top path achieves balanced efficiency, morphology and safety, making it optimal for large-section ESFW.
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