Two hot-work steels, standard A and modified B (low Si and high Mo content), were vacuum heat treated using different quenching and tempering processes, changes in microstructure and corrosion resistance of these steels were studied. Some specimens, austenitized at 1025℃ for 25 min, were gas quenched to room temperature and tempered at 200~650℃. Selected specimens were salt bath nitrocarburized at 580℃. The microstructures, X-ray diffraction, heat crack and aluminum erosion tests were conducted. The results showed that the hardness values of the as-quenched specimens, austenitized at 1025℃ for 25 min, were 54.5 ± 0.5 HRC (standard A) and 55.0 ± 0.2 HRC (modified B), and the phenomenon of secondary hardening was observed at 525℃(55.7 ± 0.2 HRC and 55.4 ± 0.1 HRC). According to X-ray diffraction analyses, martensite phases appeared on the standard A and modified B steels after gas quenching and tempering, and both Fe3N and Fe4N phases were found in the nitrocarburized specimen. Results from aluminum erosion resistance tests showed that the loss rate of the modified specimen B was lower than that of the standard one, and salt-bath nitrocarburizing could effectively reduce the loss rates of the two steels by 7.9% (A) and 8.4% (B). From the results of heat crack tests, it was observed that the heat crack resistance of modified B was better than that of standard A. However, salt-bath nitrocarburizing could not effectively enhance the thermal fatigue resistance, and the fatigue crack depth of the nitrocarburized specimen grew from 80 μm to 340 μm.