THE EFFECT OF TOOL ROTATION SPEED VARIATION TO HARDNESS AND MICROSTRUCTURE IN THE WELDING OF COMPOSITE ALSITIB-7,5%SIC BY FRICTION STIR WELDING METHOD
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Date
2020
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International Journal of Psychosocial Rehabilitation, Vol.24, Issue 02
Abstract
Friction Stir Welding method is a welding method which utilize friction between rotate cutting tool
which pressed to material, so it will generate local heat and make material soften and will be integrated or merged.
The aim of this study is to understand the effect of rotational speed (808 rpm, 1087 rpm, 1570 rpm) to hardness
and microstructure of composite AlSiTiB-7.5%SiC welding by using a tool which have conical pin shaped, with
welding speed is 0.02 mm/s. The results showed a significant increase in hardness value in the stir zone (nugget)
region and TMAZ-HAZ interface region to hardness value of base metal. Rotational speed using 1087 rpm has
highest average value of hardness in the area of the stir zone (nugget) with value 126.4 HV, while at 808 rpm
the hardness value is 118.1 HV and at 1570 rpm is 74.6 HV. The microstructure result at 1087 rpm rotational
speed showed no defects or wormhole occured if compare with 808 rpm and 1570 rpm rotational speed which has
defect or wormhole.
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Keywords
Friction Stir Welding, Tool Conical Pin, Stir Zone (nugget), TMAZ-HAZ Interface, Wormhole