3.25%冷轧硅钢焊接接头脆性的研究
AN INVESTIGATION ON THE EMBRITTLEMENT OF COLD ROLLED 3.25% SILICON STEEL WELD JOINTS
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摘要: 本文介绍了3.25%硅钢冷轧生产中的MIG焊接和TIG焊接接头的脆性问题。对传统的硅钢焊接观点提出了三点异议。文章指出,传统观点忽略了不同品种硅钢在焊接特性上的重要区别.尤其是没有注意到变压器硅钢在950℃高温下发生γ→α转变的过程。试验澄清了MIG焊后热处理的目的不仅是软化焊缝、消除应力,而且更重要的是使已析出的渗碳体快速固溶。因此处理温度必须高于800℃。文章说明加热辊压不能改善薄硅钢带TIG焊缝的塑性。通过改变焊缝柱状晶生长方向的试验,有效地改善了焊缝的塑性,澄清了传统的观点,改进了工艺,使硅钢接头可靠性明显提高,消除了MIG焊缝的断裂事故.Abstract: One of the main problems encountered during the production of cold-rolled 3.25% silicon steel was the embrittlement of MIG and TIG weld joints.Three new points of view different from the prevalent ones concerning the welding technology of silicon steels were raised in this paper.Most authors of the articles published before overlooked the differences in weldability among different types of silicon steel,and paid less attention to the process of austenite to ferrite transformation at about 950℃ in transformer steel.This investigation revealed that heat treatment after MIG welding not only softened the welds and relieved the residual stress but also much more importantly,dissolved rapidly the cementite precipitated at the grain boundary.Thus the temperature of postweld heat treatment should be higher than 800℃.It was inadequate to improve the ductility of TIG welds by seam rolling process.However,an obvious increase in ductility of welds could be obtained by controlling the orientation of the columnar grains in the weld metal.The new measures described were designed to improve the reliability of both MIG and TIG joints significantly and to eliminate fracture accidents of MIG weld joints.