Damping performance and martensitic transformation of rapidly solidified Fe-17%Mn alloy.

• With the increase of cooling rate, the volume fraction of ε-martensite increases and the stacking fault probability of γ-austenite rises in Fe-17%Mn alloy. • The formation of ε-martensite phase was remarkable for the increase of damping capacity and rise of microhardness. • The stacking fault probability plays an important role in the damping behavior of Fe-17%Mn alloy, and the damping capacity is enhanced with the increase of stacking fault probability. • The rapid solidification was beneficial for the formation of ε-martensite and the improvement of damping capacity. This effect can be facilitated by the incorporation of heat treatment process. The rapid solidification of Fe-17%Mn alloy was performed to investigate the influence of cooling rate on its damping performance and martensitic transformation mechanism. A proper heat treatment was also carried out to clarify its coupled effects with rapid solidification. The stacking fault probability and martensitic transformation temperature were determined to demonstrate their relationship with the cooling rate and the heat treatment process. With the increase of cooling rate, the volume fraction of ε-martensite increased and the stacking fault probability of ε-martensite was enhanced. The formation of ε-martensite phase was remarkable for the increase of damping capacity and microhardness. It was found that rapid solidification was beneficial for the formation of ε-martensite and the improvement of damping capacity. This effect can be facilitated by the incorporation of the heat treatment process. [Display omitted] [ABSTRACT FROM AUTHOR]