ABSTRACT

The effect of the cooling rate on martensite formation kinetic and its microstructural evolution in a ferritic stainless steel with 0.011 %C - 11.1 %Cr - 0.013 N was studied, using the dilatometric technique and optical microscopy. Samples were austenitized at 1000°C during one minute, followed by cooling under various rates to room temperature. The microstructure consists predominantly composed of martensite with a small volumetric fraction of ferrite, and the values of Vickers microhardness vary from 319±4 HV0.2 to 338±4 HV0.2 when the cooling rates increase from 0.5 to 100 °C/s. The results show that the martensite start and finish temperatures decrease when the cooling rate increases. The martensitic transformation rate grows abruptly reaching the maximum value when the martensitic fraction is about 42 % and then it decreases to zero when the martensitic transformation comes to the end. The maximum rate of martensitic transformation grows with increase of cooling rate, being 0.01 s^-1 to 0.5 °C/s and 2,54 s^-1 to 100 °C/s.

Keywords
ferritic stainless steel; martensite formation; dilatometr