Effect of Repeated Tempering on Abrasive Wear Behavior of Hypoeutectic 16 mass% Cr Cast Iron with Molybdenum

抄録

The effects of hardness, volume fraction of retained austenite (V_γ) and the number of tempering (t_N) on abrasive wear resistance of hypoeutectic 16 mass% Cr cast irons without and with Mo was investigated. After annealing, the specimens were austenitized at 1323 K for 5.4 ks and cooled by fan air cooling. The hardened specimen was repeatedly tempered, at most three times at 748–798 K for 7.2 ks. The abrasive wear resistance of heat-treated specimens was evaluated using a Suga wear tester (two-body-type abrasive test). In the as-hardened state, the hardness did not change but the V_γ increased gradually with an increase in the Mo content. In the tempered state, the hardness curves showed a secondary hardening as the t_N increased due to the precipitation of secondary carbides and transformation of destabilized austenite to martensite. The wear loss increased in proportion to the wear distance in all specimens. The wear rate (R_w) varied depending on the t_N and Mo content. The R_w decreased when the hardness was increased. The R_w increased first and then decreased as the t_N increased. The highest wear resistance was obtained in the 3% Mo cast iron with triple tempering.