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Microstructure stability and softening resistance of a novel Cr-Mo-V hot work die steel

Yasha Yuan, Wenyan Wang, Meng Zhou, Ruxing Shi, Zhengyu Wang, Yudong Zhang, Jingpei Xie

2025High Temperature Materials and Processes5 citationsDOIOpen Access PDF

Abstract

Abstract To enhance the high-temperature stability of hot-work die steel, a novel hot-work die steel was designed on the basis of 55NiCrMoV7 steel by increasing the content of Mo and V. The hardness variation trend of the two steels during high-temperature service was investigated through a thermal stability test. Test methods such as X-ray diffraction, scanning electron microscope, high-resolution transmission electron microscope, and energy spectrum analysis were employed to analyze the microstructure and carbide evolution. Combined with the Johnson–Mehl–Avrami equation, the influence of Mo and V on the high-temperature aging kinetic process was analyzed. The results indicated that the evolution of carbide and the matrix recovery process exhibit a coupling appearance. The thermal stability and tempering resistance of material experiment steel (MES) 2 steel at the test temperature were optimized, and its tempering activation energy is 34.9 kJ·mol −1 higher than that of MES 1 steel. Under the same tempering conditions, the matrix recovery of MES 2 steel is slow, and carbide coarsening is effectively inhibited. This is mainly because Mo and V are strong carbide-forming elements that preferentially combine with C to form MC over Cr, Mn, and other elements. As a result, more Cr and Mn dissolve in the matrix. This not only plays the role of solid solution strengthening but also reduces the diffusion rate of C in the matrix at high temperatures and effectively inhibits the precipitation and growth of carbides.

Topics & Concepts

Materials scienceHot workMicrostructureSofteningDie (integrated circuit)MetallurgyWork (physics)Composite materialTool steelMechanical engineeringNanotechnologyEngineeringMicrostructure and Mechanical Properties of SteelsMetal Alloys Wear and PropertiesAluminum Alloys Composites Properties
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