Abstract:

The coarsened grain boundaries (GBs) with vein-like morphology frequently appear in the nitrogen diffusion layer of nitrocarburized carbon steels. The electron probe X-ray microanalysis shows that such vein-like GBs are rich in nitrogen and carbon atoms. Transmission electron microscopy and scanning electron microscopy further reveal that the coarsened GBs consist of γ′-nitrocarbide (Fe₄(C,N)) and ε-nitrocarbide lamellas that are formed during nitrocarburizing due to high nitrogen concentration at GBs. It is shown that many of {111}<112> micro twins exist in the γ′-phase lamellas and thin ε-phase slices prefer to nucleate at their twin boundaries with the orientation relationship of {0001}_ε//{111}_γ′. Upon growing large γ′-lamellas may become faceted and thin ε-lamellas may grow thicker and become the main portions in the vein-like GBs. The microstructure evolution occurring in the vein-like GBs can be depicted as: α + [N]/[C] → γ′ + [C,N] → ε-nitrocarbides.

Key words: Nitrocarburizing, Grain boundary; Υ'-Fe4(C,N), ε-Nitrocarbide