Influence of tool rotational speed on microstructure and joint strength of friction stir spot welded pure copper

I. Dinaharan; Esther Titilayo Akinlabi

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Influence of tool rotational speed on microstructure and joint strength of friction stir spot welded pure copper

Journal article

Open access

Influence of tool rotational speed on microstructure and joint strength of friction stir spot welded pure copper

I. Dinaharan and Esther Titilayo Akinlabi

2016

Handle:

https://hdl.handle.net/10210/214059

Abstract

Copper

Friction stir spot welding

Microstructure

Copper is very difficult to be spot welded by conventional fusion welding techniques due to higher thermal diffusivity. Friction stir spot welding (FSSW) is a novel solid state welding process which is suitable and competent to spot weld copper. Commercially pure copper sheets of 3 mm thickness were spot welded by FSSW using industrial friction stir welding machine. The spot welds were made by varying the tool rotational speed at three levels. The spot welds were characterized using optical microscopy. The shear fracture load was evaluated using a computerized tensile testing machine. The results revealed that the tool rotational speed remarkably influenced the microstructure, shear fracture load and mode of fracture.

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Title: Influence of tool rotational speed on microstructure and joint strength of friction stir spot welded pure copper
Creators - without role: I. Dinaharan
Esther Titilayo Akinlabi
Identifiers: 999942507691
Academic Unit: Department of Mechanical Engineering Science
Resource Type: Journal article