Abstract
This paper investigates the effects of Ti and Nb addition with varying Mn content on the solidification macrostructure and microstructure in the continuous casting slab of Q355 steel using optical microscopy, scanning electron microscopy, transmission electron microscopy, and electron probe microanalysis. The evolution of central segregation and MnS inclusions during thermal simulation compress deformation has been clearly established using Gleeble-1500 thermal simulation tester. The results indicate that by reducing the Mn content and adding a small amount of Ti and Nb, it is possible to refine the grain and mitigate the center segregation of Q355 steel. Mn steel with 1.25% Mn and without Ti and Nb addition exhibits the most severe center segregation. The TiNb steel with 0.52% Mn and a small amount of Ti and Nb addition showed a marked improvement in the center segregation of the slab. The Nb steel with 0.56% Mn and 0.009% Nb shows the presence of thin film ferrite along prior grain boundaries surrounded by Widmanstätten ferrite, and the central segregation has not shown significant improvement. The thermal simulation samples of the three steel types inherit the characteristics of their respective casting structures.