Ferrous and other transitional metals are normally considered to be non-diamond turnable for the excessive tool wear caused by the thermal-chemical reaction between diamond and ferrous metals. In the present research, ferrous specimens were plasma nitrided at relatively low temperature to prevent the depletion of Cr content at the austenite matrix and to give a hardened layer where Fe atoms are bonded to nitrogen atom to form FexNy. Diamond turning experiments were subsequently carried out by setting cross-feed at 1μm /rev, cut-depth ranged from 1μmto 3μm, cutting distance up to around 200m, and light mineral oil as the cutting fluid. Three steel materials, namely Stavax stainless steel, H13 and SKD61 were adopted in this study for plasma nitriding and diamond turning experiments. The results showed that, better surface finish and lower tool wear were obtained on all plasma nitrided specimens in comparison to those were not treated. This means that the plasma nitriding can effectively minimize the thermal-chemical reaction between diamond tool and ferrous metal so as to suppress the tool wear and improve the achievable surface finish. Besides, amongst the nitrided steels tested there was this trend that lower Cr content showed lower wear during the diamond turning processes.