Numerical and experimental study on influence of tool plunging force and shoulder size on thermal history of friction stir welding

Int. J. Manuf. Res. Pub Date : 2015-02-23 DOI:10.1504/IJMR.2015.067618

A. Deepati, Arun Kumar Kadian, P. Biswas

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引用次数: 4

Abstract

Friction stir welding (FSW) process is a solid stated joining process. Important process parameters include the tool rpm, travel speed, tool dimensions and the downward force on the tool. Heating is caused by rubbing of the tool faces against the workpiece and by visco–plastic dissipation of mechanical energy. There is a unique combination of shear and normal forces in FSW. In this present study gaps of FSW were determined and two very much important process parameters effect on FSW (i.e., tool plunging force and shoulder size) was presented. This study investigates the effect of tool plunging force and tool shoulder size on heat generation of FSW by using 3–D finite element (FE) transient thermal analysis. It was noticed that both plunging force and shoulder diameter have considerable effect on FSW process. Suitable correlations have been made between shoulder diameter vs. peak temperature and tool plunging force vs. peak temperature. Also generalised optimum parameters were established by considering the above said parameters. The present developed FE model results were well matched with experimental results. [Received 29 September 2013; Revised 31 July 2014; Accepted 3 October 2014]

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刀具下压力和焊肩尺寸对搅拌摩擦焊热历史影响的数值与实验研究

搅拌摩擦焊(FSW)工艺是一种固态连接工艺。重要的工艺参数包括刀具转速、行程速度、刀具尺寸和刀具上的向下力。加热是由刀具面与工件的摩擦和机械能的粘塑性耗散引起的。在FSW中存在一种独特的剪切力和法向力组合。在本研究中，确定了FSW的间隙，并提出了影响FSW的两个非常重要的工艺参数(即刀具下陷力和肩尺寸)。采用三维有限元(FE)瞬态热分析方法，研究了刀具下陷力和刀肩尺寸对摩擦搅拌成形热生成的影响。结果表明，倾入力和肩径对FSW过程有较大的影响。在肩径与峰值温度和刀具切入力与峰值温度之间建立了适当的相关性。并综合考虑上述参数，建立了广义的最优参数。所建立的有限元模型与实验结果吻合较好。[2013年9月29日收到;2014年7月31日修订;2014年10月3日接受]

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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Int. J. Manuf. Res.

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