Abstract

In this study the microstructure and the resistance to intergranular corrosion of ferritic stainless steels with additions of Nb, Ti and (Ti+Nb) submitted to the TIG welding were investigated. The microstructure of the weld beads was characterized by optical (MO) and scanning electron (SEM) microscopies and by energy dispersive x-ray spectroscopy (EDS). The susceptibility to sensitization was assessed qualitatively by Practice W of ASTM 763 and quantitatively by the DL-EPR technique. Martensite was observed at the ferrite grain boundaries in the fusion and heat affected zones of the non-stabilized steel and a completely ferritic microstructure in the steels samples with addition of stabilizers. Practice W revealed general corrosion inside the grains of the AISI 430 steel and the presence of ditches in the AISI 430 Ti. Concomitantly, with the DL-EPR technique, it was found that the weld region of these steels was sensitized. On the other hand, the samples of the steels with Nb and (Ti + Nb) additions maintained good resistance to corrosion and presented no sensitization after welding.

Keywords:
Ferritic stainless steel; Stabilization; Welding; Degree of sensitization