Effect of Molybdenum Content on Heat Treatment Behavior of Multi-Alloyed White Cast Iron

Abstract

The effect of the Molybdenum (Mo) content on the heat treatment behavior of multi-alloyed white cast iron was investigated. The cast iron with varying Mo contents from 0.12 to 7.66% under the basic alloy composition of 5% Cr, W and V each was prepared. After annealing at 1223 K for 18 ks, the test specimens were austenitized at 1373 K for 3.6 ks in a vacuum furnace and subsequently hardened by a jet-spray of liquid nitrogen. The tempering was carried out at temperatures from 673 to 873 K at 50 K intervals for 12 ks. It was found that the hardness in the as-hardened state was increased progressively with an increase in the Mo content. The volume fraction of the retained austenite (V_γ) decreased markedly when the Mo content was increased over 1.17%. In the tempered state, the hardness curve showed clear secondary hardening due to the precipitation of fine secondary carbides and a reduction of the V_γ. The V_γ value in each specimen decreased gradually as the tempering temperature was elevated, but reduced greatly when tempered at 748 to 823 K. The maximum tempered hardness (H_Tmax) was obtained in the specimen tempered at 798 K where the V_γ was less than 10%. The H_Tmax increased first, and then subsequently decreased with an increase in the Mo content. The highest H_Tmax value, 946 HV30, was obtained in the specimen with 4.98%Mo. It was found that the 15–37%V_γ in the as-hardened state was necessary to get the hardness over 900 HV30 by tempering. The degree of secondary hardening (ΔHs) increased as the Mo content rose from 0.12 to 4.98% where the difference between the V_γ in the as-hardened state and that at H_Tmax (ΔV_γ) was 22–23%.