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Abstract

In this study, FSW of AISI 1080 high carbon (0·85 wt-%) steel was carried out at a temperature below its A_C1 under two sets of conditions, one entailing natural cooling and the other rapid cooling with liquid CO₂. The joint structures and mechanical properties obtained under both sets of conditions were investigated, whereupon it was found that defect free joints can be successfully fabricated under either. The resulting joint microstructures mainly consisted of grain refined ferrite with some globular cementite. Higher (harder) joint microhardness profiles were obtained under liquid CO₂ cooling below A_C1 than under natural cooling below A_C1. In tensile testing, all joint fractures were observed to occur in the base metal. Also, stir zone tensile strength and toughness were found to be higher in liquid CO₂ cooled samples (820 MPa and 76·7 mm N respectively) than in naturally cooled samples. Note that in both cases, the joints were formed at temperatures below A_C1.

Keywords

Hyper eutectic steel (AISI 1080 SK85)Friction stir welding Microstructure Hardness

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Friction stir welding of AISI 1080 steel using liquid CO 2 for enhanced toughness and ductility

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