CuNiCoBe与CuCrZr合金电极的点焊性能比较及其失效分析
发布时间:2018-07-29 12:35
【摘要】:文中对比研究了CuNiCoBe合金与CuCrZr合金电极点焊镀锌钢板的性能,并利用超景深显微镜,光谱仪、XRD等分析测试手段研究了电极表面的剥落、端部塑性变形的程度及表面合金层的成分和物相等,分析了电极失效机理.结果表明,在相同的点焊工艺参数下,CuNiCoBe电极点焊寿命达到3 500点,为CuCrZr电极寿命1 500点的2.3倍.CuCrZr电极寿命低于CuNiCoBe电极的原因在于CuCrZr合金强度硬度低,易形成剥落孔洞、塑性变形大,电极端部尺寸增大明显.表面合金层的成分和产物和CuNiCoBe电极的不尽相同.
[Abstract]:In this paper, the properties of CuNiCoBe alloy and CuCrZr alloy electrode spot welding galvanized steel plate are compared, and the spalling of electrode surface is studied by means of hyperfield microscope and spectrometer. The degree of plastic deformation at the end and the composition and substance of the alloy layer on the surface are equal. The failure mechanism of the electrode is analyzed. The results show that the lifetime of CuNiCoBe electrode is 3 500 points under the same spot welding parameters, which is 2.3 times longer than that of CuNiCoBe electrode. The reason is that the strength and hardness of CuCrZr alloy is low and the spalling holes are easily formed. The plastic deformation is large and the size of the electric extreme part increases obviously. The composition and product of surface alloy layer are different from that of CuNiCoBe electrode.
【作者单位】: 江苏科技大学先进焊接技术省级重点实验室;
【基金】:江苏高校优势学科建设工程资助项目
【分类号】:TG453.9
[Abstract]:In this paper, the properties of CuNiCoBe alloy and CuCrZr alloy electrode spot welding galvanized steel plate are compared, and the spalling of electrode surface is studied by means of hyperfield microscope and spectrometer. The degree of plastic deformation at the end and the composition and substance of the alloy layer on the surface are equal. The failure mechanism of the electrode is analyzed. The results show that the lifetime of CuNiCoBe electrode is 3 500 points under the same spot welding parameters, which is 2.3 times longer than that of CuNiCoBe electrode. The reason is that the strength and hardness of CuCrZr alloy is low and the spalling holes are easily formed. The plastic deformation is large and the size of the electric extreme part increases obviously. The composition and product of surface alloy layer are different from that of CuNiCoBe electrode.
【作者单位】: 江苏科技大学先进焊接技术省级重点实验室;
【基金】:江苏高校优势学科建设工程资助项目
【分类号】:TG453.9
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