Effect of cyclic treatment on the formation of a fragmented structure in a sparingly alloyed martensitic steel

Methods of metallography and transmission electron microscopy were used to study the structure of a high-alloy low-carbon steel of martensitic VKS-10 class subjected to cyclic treatment according to different regimes. It has been found that the warm deformation in the α state at 700°C causes the fragmentation of the structure; however, the decomposition of the α solid solution and the precipitation of coarse carbides leads to a significant decrease in the strength. It has been shown that 12 cycles of treatment, including austenitizing at 1000°C, rolling at 700°C, and subsequent γ → α transformation during rapid cooling do not lead to a noticeable fragmentation of the structure. It has been found that the deformation of the overcooled austenite by rolling carried out using 12 cycles in the range of temperatures of 700–500°C and subsequent γ → α transformation lead to the formation of a fragmented structure with a large fraction of fine grains with a size less than 0.5 μm. This treatment and the subsequent tempering at 530°C for 1 h allow us to increase the strength and hardness of the VKS-10 steel at an insignificant decrease in the plasticity.