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Precipitation behavior and phase transformation mechanism of super austenitic stainless steel S32654 during isothermal aging
Thermodynamic calculation as well as microstructure characterization was carried out to investigate the precipitation behavior of super austenitic stainless steel S32654 aged at 700–1100 °C. The corresponding precipitation characteristics and transformation mechanisms of secondary phases were propos...
Ausführliche Beschreibung
Thermodynamic calculation as well as microstructure characterization was carried out to investigate the precipitation behavior of super austenitic stainless steel S32654 aged at 700–1100 °C. The corresponding precipitation characteristics and transformation mechanisms of secondary phases were proposed. The results demonstrate that σ phases with various morphologies formed during isothermal aging, and followed a sequence of intergranular, cellular and intragranular with aging temperature. The intergranular σ phase nucleated much faster than the intragranular one due to the lower nucleation energy and higher element diffusion rate at grain boundary. Most intragranular σ phase grew into needle-like shape because of the great difference in mobility of the interfaces formed around it. The cellular σ phase was firstly detected in S32654, and its growth process was successively controlled by intergranular diffusion and then by bulk diffusion of Cr and Mo. Both Cr and Mo bulk diffusion and large needle-like σ phase resulted in the incompleteness of cellular precipitation of σ phase. Another new phenomenon was found that σ phase could induce the precipitation of Cr2N ahead of cell boundary, between lamellar σ phases and at the σ/γ interfaces. Meanwhile, local parts of needle-like σ phase gradually transformed into Cr2N and R phase through Cr and Mo diffusion from the former to the latters. Ausführliche Beschreibung