Influences of Mo substitution by W on the precipitation kinetics of secondary phases and the associated localized corrosion and embrittlement in 29% Cr ferritic stainless steels

“…The phase map also reveals that these phases are concentrated at triple boundary junctions. Several researchers have observed this characteristic in the precipitation of the sigma phase in superferritic stainless steels [18][19][20] . The χ phase is present in small quantities inside the mu and sigma phases (see green areas in Figure 7), and influences the formation of these later phases.…”

Naphthenic corrosion resistance, mechanical properties and microstructure evolution of experimental Cr-Mo steels with high Mo content

“…The phase map also reveals that these phases are concentrated at triple boundary junctions. Several researchers have observed this characteristic in the precipitation of the sigma phase in superferritic stainless steels [18][19][20] . The χ phase is present in small quantities inside the mu and sigma phases (see green areas in Figure 7), and influences the formation of these later phases.…”

Naphthenic corrosion resistance, mechanical properties and microstructure evolution of experimental Cr-Mo steels with high Mo content

“…For example, in ferritic stainless steel, the precipitation of chromium carbides and nitrides at grain boundaries causes local depletion of chromium in the surrounding material, resulting in a much-reduced corrosion resistance [Kim et al, 2010;Park et al, 2006]. This will lead to a dramatic drop in the strength and stiffness of the materials.…”

Some Applications of Electron Back Scattering Diffraction (EBSD) in Materials Research

“…Como está mostrado na Figura 4 é possível verificar que as ligas estudadas, dependendo das condições de temperatura a que sejam submetidas, poderão exibir a presença das fases chi σc), mu (m) e sigma (s). De acordo com a Figura 4 a fase chi (c) é formada antes das fases mu (m), e sigma (s), conforme já havia sido observado por Park [14], observa-se ainda a presença da fase ferrítica, característica destas ligas. Verifica-se também a possibilidade de formação de carbonetos do tipo M 6 C e M 23 C 6 para as três ligas, além da presença da fase austenítica para a liga com menor teor de molibdênio (E1, Figura 4a), o que não acontece para as liga E2 e E3 (Figura 4b e Figura 4c).…”

“…Tanto a fase chi (c) como a sigma (s) são frágeis e indesejáveis num aço inoxidável pois comprometem tanto a tenacidade quanto a resistência à corrosão [10][11][12][13]. Estudos recentes têm mostrado que a formação da fase chi (c) ocorre antes da fase sigma (s), onde a fase chi (c) atua como um núcleo para a formação da fase sigma (s) [14].…”

Influência do teor de Mo na microestrutura de ligas Fe-9Cr-xMo