Establishment of a model predicting tensile shear strength and fracture portion of laser-welded lap joints

International Congress on Laser Advanced Materials Processing Pub Date : 2003-03-03 DOI:10.1117/12.486493

S. Furusako, Y. Miyazaki, K. Hashimoto, J. Kobayashi

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引用次数: 7

Abstract

This study was aimed at establishment of a model that can predict tensile shear strength and fracture portion laser-welded lap joints in the tensile test. To clear influence of the bead length and width on them, the joints employed steel sheets with a thickness in the range of 0.8 mm to 1.2 mm were evaluated. It was found that the tensile shear strength increased with the bead size, and the fracture occurred at base metal (BM), weld metal (WM) or portion between them with a curvature (referred to as portion R). Also to clarify rotational deformation process around WM during the tensile test, joint cross-sections were observed at some applied load levels in the test. This observation derived the relationship between the radius, Ri, at the inner plane of portion R and the rotational angle, θ, of the center of sheet thickness, and the relationship between Ri and applied load. A plastic analysis based on these functions and assumptions that the joint consists of BM, WM and R, which are under simplified stress mode respectively, could estimate the tensile shear strength and the fracture portion of the joints. This estimation made good accord with experimental results.

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建立了激光搭接接头抗拉剪切强度及断裂部位预测模型

本研究旨在建立一个能够预测激光焊接搭接接头拉伸试验中拉伸剪切强度和断裂部位的模型。为了明确接头长度和宽度对它们的影响，对接头采用0.8 mm至1.2 mm厚度的钢板进行了评估。拉伸剪切强度随焊头尺寸的增大而增大，断裂发生在母材(BM)、焊缝金属(WM)或两者之间有曲率的部分(R部分)。此外，为了阐明拉伸试验中WM周围的旋转变形过程，在试验中观察了一些施加载荷水平下的接头截面。这一观察推导出了R部分内平面半径Ri与板材厚度中心转角θ之间的关系，以及Ri与外加载荷之间的关系。基于这些函数进行塑性分析，假设节理由BM、WM和R组成，分别处于简化应力模式下，可以估计节理的抗拉剪切强度和断裂部分。该估计与实验结果吻合较好。

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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International Congress on Laser Advanced Materials Processing

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