TY - GEN
T1 - Investigations on the effect of cooling rate on quenching & partitioning (Q&P) in martensitic stainless steels
AU - Kresser, Simona
AU - Schneider, Reinhold
AU - Zunko, Horst
AU - Sommitsch, Christof
N1 - Publisher Copyright:
© 2022 Quaker Houghton. All right reserved.
PY - 2022
Y1 - 2022
N2 - Quenching and partitioning (Q&P) is a heat treatment used to adjust the retained austenite content in the microstructure. The heat treatment consists of a austenitizing step followed by rapid cooling to a certain quenching temperature between martensite start and martensite finish temperature and subsequent partitioning, which involves reheating and then holding at a specified partitioning temperature. During partitioning, the formed martensite is tempered and the austenite is stabilised by diffusion of carbon atoms from the martensite into the austenite. This type of heat treatment is mainly used for low-alloyed steels. However, the partitioning effect has also an influence on higher alloyed steels, such as martensitic stainless steels. The typical heat treatment for these steels is quenching and tempering (Q&T). For large-scale tools, it could happen that the centre region of the tool is not cooled down completely to room temperature before the tempering step takes place, resulting in a Q&P instead of a Q&T treatment. This can lead to a higher retained austenite content or even fresh martensite in the microstructure after heat treatment. Q&P depends on the content of dissolved alloying elementsin the matrix before quenching, which is controlled by the material composition and the austenitising temperature. Important factors are also the quenching and partitioning temperatures as well as the cooling rate. Especially with larger components, the cooling rate in the inner area is lower than in the peripheral area. Therefore, the influence of the Q&P on martensitic stainless steels at fast and slow cooling rates was investigated in this work. Heat treatments with different parameters were carried out on a dilatometer. Subsequently hardness and retained austenite content of the samples were determined in order to compare the properties. It will be shown that the alloy content and the cooling rate have an influence on the retained austenite content of the finale microstructure and also on the hardness.
AB - Quenching and partitioning (Q&P) is a heat treatment used to adjust the retained austenite content in the microstructure. The heat treatment consists of a austenitizing step followed by rapid cooling to a certain quenching temperature between martensite start and martensite finish temperature and subsequent partitioning, which involves reheating and then holding at a specified partitioning temperature. During partitioning, the formed martensite is tempered and the austenite is stabilised by diffusion of carbon atoms from the martensite into the austenite. This type of heat treatment is mainly used for low-alloyed steels. However, the partitioning effect has also an influence on higher alloyed steels, such as martensitic stainless steels. The typical heat treatment for these steels is quenching and tempering (Q&T). For large-scale tools, it could happen that the centre region of the tool is not cooled down completely to room temperature before the tempering step takes place, resulting in a Q&P instead of a Q&T treatment. This can lead to a higher retained austenite content or even fresh martensite in the microstructure after heat treatment. Q&P depends on the content of dissolved alloying elementsin the matrix before quenching, which is controlled by the material composition and the austenitising temperature. Important factors are also the quenching and partitioning temperatures as well as the cooling rate. Especially with larger components, the cooling rate in the inner area is lower than in the peripheral area. Therefore, the influence of the Q&P on martensitic stainless steels at fast and slow cooling rates was investigated in this work. Heat treatments with different parameters were carried out on a dilatometer. Subsequently hardness and retained austenite content of the samples were determined in order to compare the properties. It will be shown that the alloy content and the cooling rate have an influence on the retained austenite content of the finale microstructure and also on the hardness.
KW - different cooling rates
KW - dilatometry
KW - martensitic stainless steels
KW - partitioning
KW - retained austenite
UR - http://www.scopus.com/inward/record.url?scp=85170825263&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:85170825263
T3 - 27th IFHTSE Congress and European Conference on Heat Treatment 2022
SP - 394
EP - 401
BT - 27th IFHTSE Congress and European Conference on Heat Treatment 2022
PB - International Federation for Heat Treatment and Surface Engineering, IFHTSE
T2 - 27th Congress of the International Federation for Heat Treatment and Surface Engineering, IFHTSE 2022 and European Conference on Heat Treatment 2022, ECHT 2022
Y2 - 5 September 2022 through 8 September 2022
ER -