Characterizations and Kinetic Modelling of Boride Layers on Bohler K190 Steel

In this study, the Bohler K190 steel, manufactured by the powder metallurgy (PM) process, was subjected to the boronizing process. This thermochemical treatment was carried out in the range of 1173 to 1323 K, for 1-10 h. The scanning electron microscopy (SEM) was utilized for examining the morphology of layers' interfaces with a dual-phase nature and measuring the layers' thicknesses. The obtained boronized layers had a maximum thickness of 113 & PLUSMN; 4.5 & mu;m. The X-ray diffraction analysis (XRD) confirmed the presence of FeB and Fe2B layers. The energy dispersive spectroscopy (EDS) mapping and EDS point analysis were used to investigate the redistribution of chemical elements within the boronized layers and the transition zone. The values of Vickers microhardness of Fe2B, FeB, and transition zone were estimated. Finally, the boron activation energies in FeB and Fe2B were found to be 204.54 and 196.67 kJ & BULL;mol(-1) based on the integral method and compared to the literature results.