Cleaning Effect of Interlayer Metal on the Joining Surface during Braze Pressure Welding

Jsme International Journal Series A-solid Mechanics and Material Engineering Pub Date : 2005-10-15 DOI:10.1299/JSMEA.48.413

Yohei Inagaki, A. Suzumura, T. Ikeshoji, T. Yamazaki

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引用次数: 2

Abstract

Braze Pressure Welding (BPW) with high frequency induction heating is a newly developed pressure welding technique using interlayer metals for welding the general steel pipes for pipe arrangement in buildings. BPW enables to make joints by solid-state welding in air with relatively small deformation. In this method, the interlayer metal is expected to play the primary role in making high performance joints. It removes contaminations from the joining surface of the base metal and forms fillets at the gaps around the joint. It had been revealed by some experiments and/or numerical analyses in previous research that the BPW joint had higher tensile strength than the brazed joint, and that the fillet can improve the joint strength. In this study, in order to investigate the cleaning effect of interlayer metal more closely, a low carbon steel plate specimen was brazed mainly by Ni-based brazing filler using a tungsten spacer. The microscopy and EPMA analysis on the joints made by various brazing temperatures and durations confirmed that the oxide films on the joining surfaces were removed and discharged from the joining region by the interlayer metal.

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钎焊压力焊中连接面夹层金属的清洗效果

高频感应加热钎焊压力焊是一种新兴的利用层间金属焊接建筑管道布置用普通钢管的压力焊技术。BPW可以在空气中以相对较小的变形进行固态焊接。在这种方法中，层间金属有望在制造高性能接头中发挥主要作用。它可以去除母材连接表面的污染物，并在连接周围的间隙处形成圆角。以往的一些实验和数值分析表明，钎焊接头具有比钎焊接头更高的抗拉强度，而圆角可以提高接头的抗拉强度。为了更深入地研究层间金属的清洗效果，本研究主要采用镍基钎料和钨垫片钎焊低碳钢试样。对不同钎焊温度和时间下的接头进行了显微分析和EPMA分析，证实了连接表面的氧化膜被层间金属从连接区域移除并排出。

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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Jsme International Journal Series A-solid Mechanics and Material Engineering

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