Study of damage initiation and fracture in aluminum tailor welded blanks made via different welding techniques

Journal of Light Metals Pub Date : 2002-05-01 DOI:10.1016/S1471-5317(02)00028-7

H.R. Shakeri , A. Buste , M.J. Worswick , J.A. Clarke , F. Feng , M. Jain , M. Finn

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引用次数: 39

Abstract

The present paper addresses microstructural evaluation of failure in multi-gauge aluminum alloy tailor welded blanks (TWBs), welded using non-vacuum electron beam and neodymium:yttrium–aluminum–garnet laser techniques. The limiting dome height test is used to evaluate formability of the TWBs. Three gauge combinations utilizing AA5754 sheets are considered (2 to 1 mm, 1.6 to 1 mm and 2 to 1.6 mm). Different weld orientations have been considered: transverse and longitudinal. In general, TWBs show two different types of fracture: weld failure and failure of the thinner aluminum sheet. Interaction of several factors determines the type of failure occurring in a TWB specimen. These factors are weld orientation, morphology and distribution of weld defects as well as the degree of constraint imposed by the thicker sheet on the thin sheet. The last factor usually depends on the difference in thickness of the sheets and is represented here in terms of gauge ratio.

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不同焊接工艺对铝拼焊坯料损伤萌生和断裂的研究

本文讨论了使用非真空电子束和钕：钇-铝-石榴石激光技术焊接的多规格铝合金拼焊坯料（TWB）失效的微观结构评估。极限圆顶高度试验用于评估TWB的成形性。考虑使用AA5754片材的三种规格组合（2至1 mm、1.6至1 mm和2至1.6 mm）。考虑了不同的焊接方向：横向和纵向。一般来说，TWB表现出两种不同类型的断裂：焊接失效和较薄铝板的失效。几个因素的相互作用决定了TWB试样中发生的失效类型。这些因素是焊接方向、焊接缺陷的形态和分布，以及较厚的薄板对薄板施加的约束程度。最后一个因素通常取决于板材厚度的差异，在这里用标距比表示。

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Journal of Light Metals

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