The Influence of Manufacturing Technology on the Properties of Chromium-Bronze Electrodes for Contact Relief Welding of Reinforcing Rods

Journal of Siberian Federal University: Engineering & Technologies Pub Date : 2021-12-01 DOI:10.17516/1999-494x-0368

Sergei L. Busygin

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Abstract

The article discusses an effective, in comparison with common, technology of manufacturing chromium bronze electrodes for resistance projection welding of reinforcing bars. Within the framework of this technology, a method for preparing a melt with alloying with a multicomponent element, including basic elements, a matrix of copper powder and a filler of nanostructured chromium particles, is considered. The technology is based on a combined molding-plastic deformation process and makes it possible to obtain a finished resistance welding electrode of type D in one operation. The results of microstructural, X‑ray micro-spectral and local energy dispersive (micro) analysis of electrode samples obtained by different technologies, explaining the main nature of the loss of electrode performance, are presented. The results of fractographic studies of the contact surface of the electrodes are considered. Electrical conductivity and mechanical properties were studied for all electrode samples. The results of tests on a resistance welding machine with an assessment of the wear of the electrodes and the reasons for their failure are presented

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制造工艺对钢筋接触卸压焊用铬青铜电极性能的影响

本文讨论了一种有效的、与常用的钢筋电阻凸焊用铬青铜焊条的制造工艺。在该技术的框架内，考虑了一种用多组分元素(包括基本元素、铜粉基体和纳米结构铬颗粒填料)制备熔体的方法。该技术基于成型-塑性复合变形工艺，可一次加工得到D型电阻焊条成品。介绍了不同技术获得的电极样品的显微结构、X射线微光谱和局部能量色散(micro)分析结果，解释了电极性能损失的主要性质。考虑了电极接触面断口学研究的结果。研究了各电极样品的电导率和力学性能。介绍了电阻焊机的试验结果，并对电极的磨损进行了评估，分析了电极失效的原因

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Journal of Siberian Federal University: Engineering & Technologies

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