Optimalizace izotermické prodlevy s důrazem na strukturu ADI

The Optimization of the Isothermal Transformation Dwell with Emphasis on the Matrix Structural Mixture of Austempered Ductile Iron

journal article - other

en

The studied austempered ductile iron (ADI) was obtained by the heat treatment of an unalloyed nodular cast iron consisting of austenitization (900 C / 1h), an isothermal transformation at 380 C and water cooling at the end. To study matrix composition changes during the isothermal transformation, the dwell at the transformation temperature was chosen in very wide range of 2 min to 540 min. The isothermal transformation starts by a creation of bainitic ferrite needles resulting in an enrichment of the non-transformed austenite by carbon which increases its stability. For short dwells (2, 5 and 10 min) the stabilization of the austenite is not sufficient yet, therefore the partial martensitic transformation during cooling occurs. With increasing dwell the amount of the stabilized austenite increases and reaches its maximum for the transformation dwell of 60 min. With further dwell lengthening the amount of the stabilized austenite decreases again as a consequence of its continuing transformation into the bainitic ferrite. The maximum fraction of the bainitic ferrite is reached for the longest dwells, i.e. for 270 min and 540 min. For the same dwells iron carbides on the austenite/bainitic ferrite interface have been found.

Studovaná ADI byla získána tepelným zpracováním nelegované litiny s kuličkovým grafitem. Tepelné zpracování sestávalo z austenitizace (900 C / 1h), izotermické transformace pri teplotě 380 C a ochlazení do vody. Ke studiu změn struktury v průběhu izotermické transformace byly vybrány doby transformace v rozsahu od 2 do 540 minut.

The studied austempered ductile iron (ADI) was obtained by the heat treatment of an unalloyed nodular cast iron consisting of austenitization (900 C / 1h), an isothermal transformation at 380 C and water cooling at the end. To study matrix composition changes during the isothermal transformation, the dwell at the transformation temperature was chosen in very wide range of 2 min to 540 min. The isothermal transformation starts by a creation of bainitic ferrite needles resulting in an enrichment of the non-transformed austenite by carbon which increases its stability. For short dwells (2, 5 and 10 min) the stabilization of the austenite is not sufficient yet, therefore the partial martensitic transformation during cooling occurs. With increasing dwell the amount of the stabilized austenite increases and reaches its maximum for the transformation dwell of 60 min. With further dwell lengthening the amount of the stabilized austenite decreases again as a consequence of its continuing transformation into the bainitic ferrite. The maximum fraction of the bainitic ferrite is reached for the longest dwells, i.e. for 270 min and 540 min. For the same dwells iron carbides on the austenite/bainitic ferrite interface have been found.

ADI, stabilizovaný austenit, transformační prodleva

ADI, stabilized austenite, transformation dwell, isothermal transformation stage

2007

16.06.2007

KAUNO TECHNOLOGIJOS UNIVERSITETAS

Kaunas, Lithuania

1392-1320

Materials Science

13

2/2007

113–116

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