Issue 51

D. Fernandino et alii, Frattura ed Integrità Strutturale, 51 (2020) 477-485; DOI: 10.3221/IGF-ESIS.51.36 480 indicates the amount of austenite at the selected heating temperature within the intercritical temperature interval. In consequence, as the heating temperature increases, the amount of martensite also increases. The fraction of austenite formed as a function of the temperature is shown in Fig. 4. Based on this information, a heating temperature of 788°C was selected to achieve an IADI with 60%Ferrite and 40%Ausferrite after the austempering heat treatment. Fig. 5 shows the resulting microstructure after the austempering from the intercritical heating temperature. The metallographies show ferrite (white), graphite (black), and ausferrite (gray). C Si Mn S P Mg Cu 3.32 2.36 0.31 0.012 0.016 0.033 0.62 Table 1 : Chemical composition of DI used (weight %, Fe balance). Figure 3 : Metallographies after rapid quenching of samples heated up to different temperatures and maintained for 60 min. (100×). (a)780 °C, (b) 800 °C, (c) 840 °C. Figure 4: The kinetics of austenite transformation as a function of the temperature . (a) 250µm (b) 250µm (c) 250µm