On the influence of joining processes on the vibration of structures

IF 3.8 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Pedro Millan , A.Francisco G. Tenreiro , João D.P. Amorim , Mohammad Mehdi Kasaei , Reza Beygi , Jorge Ambrósio , Lucas F.M. da Silva
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Abstract

The joining of new and dissimilar materials in the transportation sector, to meet the demands for lighter structures, requires the use of alternative joining processes. However, it is not clear how different types of structural joints compare in terms of their contribution to the vibration and damping of structures. The present work aims to provide a comprehensive experimental and numerical analysis on the contribution of three structural joints – butt friction stir welding, single lap adhesive joint and hole hemmed joint – to the vibration and damping of two joined aluminium sheets. For this purpose, experimental analysis is performed to study the free-free vibration of the three structural joints. In addition, finite element models are developed to better understand the behaviour of these joints and discuss the challenges of the numerical modelling procedure. The first four natural frequencies, experimentally obtained for each structure, suggest that the adhesive joint has significantly higher natural frequencies, due to the thickness increase at overlap, while the hole hemmed joint presents the most significant contribution to damping, owing to sliding at the overlap region. The numerical models show a very good agreement with the experimental results in terms of the natural frequencies and mode shapes, with simple modelling providing accurate results. In conclusion, the main findings are that the adhesive joints allow for a stiffer structure, with the natural frequencies increasing with the overlap dimension, while hole hemming enhances damping. The butt-butt friction stir welding has a small effect on the structural behaviour, showing a similar dynamic stiffness and damping when compared to a solid sheet of the same dimension.

连接工艺对结构振动的影响
为满足轻型结构的要求,运输业需要将新型异种材料连接起来,这就需要使用其他连接工艺。然而,目前还不清楚不同类型的结构连接对结构振动和阻尼的影响。本研究旨在对三种结构连接方式--对接搅拌摩擦焊、单搭接粘合剂连接和孔折边连接--对两块连接铝板的振动和阻尼的影响进行全面的实验和数值分析。为此,我们进行了实验分析,以研究这三种结构接头的自由振动。此外,还开发了有限元模型,以更好地理解这些接头的行为,并讨论数值建模程序所面临的挑战。实验得出的每种结构的前四个自然频率表明,由于重叠处的厚度增加,粘合接头的自然频率明显更高,而孔式折边接头由于重叠区域的滑动,对阻尼的贡献最大。在固有频率和模态振型方面,数值模型与实验结果非常吻合,简单的建模就能得到精确的结果。总之,主要研究结果表明,粘接接头可提高结构刚度,固有频率随重叠尺寸的增加而增加,而孔径折边可增强阻尼。对接搅拌摩擦焊对结构行为的影响较小,与相同尺寸的实心板材相比,显示出相似的动态刚度和阻尼。
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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来源期刊
CiteScore
7.10
自引率
9.80%
发文量
58
审稿时长
44 days
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