Pore shape evolution in nitrided SCM440H compound layer and its influence on pitting resistance during rolling-sliding contact fatigue

Abstract

Nitriding is a beneficial surface hardening heat treatment to reduce CO₂ emissions and shows a potential partially replace carburized steels adopted for sliding parts such as bearings and gears. Both the bending fatigue strength and pitting fatigue strength under high contact pressure were evaluated for nitrided JIS-SCM440H materials using two types of controlled-nitridings, i.e. γ' and ε, and conventional gas nitriding. Not only the thickness of the compound layer but also its phase structure such as γ' and ε significantly affected the 10⁷ cycles bending fatigue strength, where the γ'-nitrided specimen was the highest. On the other hand, almost no effects of the thickness and phase structure on the 10⁷ cycles pitting fatigue strength were detected in the specimens. Compared to the carburized specimen, the γ'-nitrided specimen exhibited higher 10⁷ cycles fatigue strength in bending and pitting, but poor fatigue strength in the lower cycles range. The shape and size of the pores in the compound layer were altered during roller-pitching tests, although there was almost no reduction in the thickness of the compound layer. The pore size was reduced by pore closure, especially at higher contact pressures. Pore closure was more pronounced in the γ'-nitrided specimens than in the ε-nitrided specimens at lower contact pressures. The 10⁷ cycles pitting fatigue strength was improved after the pore closure, resulting from fewer defects.