Effect of Welding Parameter of Flux Consumption in Submerged Arc Welding

S. Thakur, G. Goga, Avtar Singh
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Abstract

The submerged arc welding process is most widely used arc welding process for joining thick plates and pipes. The features that distinguishing submerged arc welding from other arc welding process is gradually fusible material termed as flux. The flux used in submerged arc welding contributes a major part (above 50%) towards the total welding cost. The properties of weld metal have been found to be dependent upon flux-electrode-base metal-composition on welding parameters. Flux and filler metal play a central role in ascertaining property of weld metal. In the present work, the effect of operating arc voltage, welding current, welding speed and nozzle distance on flux consumption and chemical composition of carbon and silicon has been studied. Mathematical model was developed from data generated using two level half factorial technique. The experiment is conducted as per the design matrix. Design Expert software 7 is used in order to (i) the designing of a set of experiments for adequate and reliable measurement of the true mean response of interest (ii) the determining of mathematical model with best fits (iii) finding the optimum set of experimental factors that produces maximum or minimum value of response and (iv) representing the direct effects of procedure variables on the flux utilization, current and silicon through two dimensional graphs. It was observed that the flux consumption decrease with increase in wire feed rate and its welding speed. The flux utilization increase with increase in arc voltage. The effect of constant tip to work distance has in significant effect on flux utilization. Carbon percentage increase with increase in arc voltage and welding speed. Carbon proportion decrease with increase in welding current. Silicon percentage decrease as increase in current and voltage.
埋弧焊中焊接参数对焊剂消耗的影响
埋弧焊是目前应用最广泛的厚板、厚管焊接工艺。埋弧焊区别于其他电弧焊工艺的特点是逐渐易熔的材料称为助熔剂。埋弧焊中使用的助焊剂占总焊接成本的很大一部分(50%以上)。焊缝金属的性能取决于焊剂-电极-母材-成分和焊接参数。焊剂和填充金属对焊缝金属的性能起着决定性的作用。本文研究了工作电弧电压、焊接电流、焊接速度和喷嘴距离对焊剂消耗和碳硅化学成分的影响。利用两级半阶乘技术生成的数据建立数学模型。实验按照设计矩阵进行。Design Expert软件7用于(i)设计一组实验,以充分和可靠地测量感兴趣的真实平均响应(ii)确定最佳拟合的数学模型(iii)找到产生最大或最小响应值的最佳实验因素集(iv)通过二维图形表示程序变量对通量利用率,电流和硅的直接影响。焊剂消耗量随送丝速度和焊接速度的增加而减小。磁通利用率随电弧电压的升高而增大。恒定尖端对工作距离的影响对磁通利用率有显著影响。碳含量随电弧电压和焊接速度的增加而增加。随着焊接电流的增大,碳比降低。硅含量随电流和电压的增加而降低。
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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