Friction stir welding of duplex stainless steels

Abstract

Duplex stainless steels are successful in a variety of applications such as the food industry, petrochemicals and plants for desalination of seawater, where high corrosion resistance and high mechanical strength are required. However, the beneficial microstructure may change during fusion welding steps, and it can compromise the performance of these materials. Friction stir welding is a solid-state process avoiding typical problems concerning solidification such as solidification cracks, liquation and segregation of alloying elements. Superduplex stainless steels can avoid unbalanced proportions of ferrite and austenite, formation of secondary deleterious phases and grain growth of ferrite in the heat-affected zone. Consolidated friction stir welded joints with full penetration 6 mm thick were obtained for UNS S32101 and S32205 duplex and S32750 and S32760 superduplex stainless steels. The friction stir welds were submitted to tensile tests indicating an improvement of strength in welded joints, showing increased yield and tensile strength for all studied cases. Regarding the microstructural characterization, an outstanding grain refinement was observed in the welded joint, achieving grain sizes as small as 1 μm. This refinement was associated with the combination of microstructural restoration mechanisms in the dual-phase microstructure promoted by severe deformation associated with a high temperature during the welding process.

Keywords:

• Friction stir welding
• duplex stainless steels
• welding parameter development

Acknowledgments

The authors are grateful for financial support from Petrobras and FINEP, study grants from the CNPq and FAPESP, donation of steels UNS S32101 and S32750 by Outokumpu, S32205 by Aperam South America and S32760 by Weir Materials. TFAS thanks the UFPE and FACEPE.

Notes

Contribution for XLI CONSOLDA – National Welding Congress.