Evolution of microstructure and mechanical properties for 9Cr18 stainless steel during thixoforming: Fid-Bau Portal

Evolution of microstructure and mechanical properties for 9Cr18 stainless steel during thixoforming

Zhao, Cuiqing / Song, Renbo

Highlights • Hot compression tests of 9Cr18 steel were carried out in the semi-solid state. • Average size of carbides is affected by thixoforming parameters significantly. • Dynamic recrystallization occurs during thixoforming. • Martensite appears after rapid cooling due to the diffusion of carbon atoms.

Abstract Hot compression tests were carried out in the semi-solid state of 9Cr18 stainless steel on Gleeble-1500 thermal simulation testing machine to investigate the effects of thixoforming parameters on its microstructure and mechanical properties. In this paper, microstructure was observed by scanning electron microscopy (SEM) and analyzed using energy dispersive spectrometer (EDS), and true stress–stain curves of the specimens with different initial microstructures after thixoforming were obtained to study the deformation mechanism. The results showed that thixoforming parameters such as reheating temperature and the strain rate had a significant influence on microstructure and mechanical properties evolution of 9Cr18 semi-solid billet. With increasing reheating temperature or decreasing strain rate, average size of carbides decreased from 2μm to 0.5μm, and the phenomenon of liquid extrusion during thixoforming became more obvious. During thixoforming, carbon atoms diffused to molten metal from austenite in the centre of specimens. When thixoforming temperature reached 1300°C, martensitic transformation occurred after rapid cooling. Flow stress of semi-solid billet was lower than traditional ingot casting and hot rolled state steel, when reheated to the semi-solid range, due to their different original microstructure.