Cold spot joining of high-strength steel sheets

IF 3.8 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Journal of Advanced Joining Processes Pub Date : 2023-12-21 DOI:10.1016/j.jajp.2023.100179

Takumi Aibara , Masayoshi Kamai , Yoshiaki Morisada , Kohsaku Ushioda , Takaaki Miyauchi , Shinichi Hasegawa , Hidetoshi Fujii

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Abstract

A novel solid-state joining method, called cold spot joining (CSJ), has been successfully developed. In this method, the material near the joining interface undergoes plastic deformation under high pressure, forming a joining interface, while oxide layers at the interface are fragmented and expelled to the exterior. High-strength steel sheets (HSS) with strengths of 780 MPa were joined under various conditions. The joining temperature can be adjusted by applying pressure during CSJ. Applying suitable pressure results in solid-state joining, and microstructural observations, alongside fracture morphology, indicate that the formation of a brittle structure was effectively prevented. Furthermore, cross-tensile strength measurements were conducted on steel sheets of varying strength grades, ranging from 270 to 1180 MPa and exhibited that the cross-tensile strength increased with increasing tensile strength.

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高强度钢板的冷点连接

一种名为冷点连接（CSJ）的新型固态连接方法已经研制成功。在这种方法中，接合界面附近的材料在高压下发生塑性变形，形成接合界面，同时界面上的氧化层破碎并被排出到外部。强度为 780 兆帕的高强度钢板（HSS）在不同条件下进行了接合。在 CSJ 过程中，可以通过施加压力来调节连接温度。施加适当的压力会导致固态连接，而微观结构观察和断裂形态表明，脆性结构的形成得到了有效防止。此外，还对 270 至 1180 兆帕不同强度等级的钢板进行了交叉拉伸强度测量，结果表明交叉拉伸强度随拉伸强度的增加而增加。

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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