Isothermal Decomposition of Ferrite in a High-Nitrogen, Nickel-Free Duplex Stainless Steel

The formation and crystallography of second phases during isothermal decomposition of ferrite (α) in a high-nitrogen, nickel-free duplex stainless steel was examined by means of transmission electron microscopy (TEM). At an early stage of aging, the decomposition of α started along the α/γ phase boundaries where sigma (σ) phase and secondary austenite (γ ₂) precipitated in the form of an alternating lamellar structure. The combined analyses based on the simulation of diffraction patterns and stereographic projection have shown that most of the σ phase was related to the γ ₂ by the following relation: (111) _γ ¶ (001) _σ and [101̄] _σ. The intergranular and intragranular precipitation of Cr ₂N with trigonal structure were identified, and the orientation relationships (ORs) with α and γ matrix could be expressed as (110) _α ¶ (0001)Cr ₂N' [1̄11] _α [1̄100]Cr ₂N; (111) _γ ¶ (0001)Cr ₂N, and [1̄10] _γ ¶ [1̄100]Cr ₂N respectively. The precipitation of intermetallic χ phase was also observed inside the α matrix, and they obeyed the cube-on-cube OR with the α matrix. Prolonged aging changed both the structure of matrix and the distribution of second phases. The γ ₂, formed by decomposition of α, became unstable because of the depletion of mainly N accompanied by the formation of Cr ₂N, and it transformed into martensite after subsequent cooling. As a result, the microstructure of the decomposed α region was composed of three kinds of precipitates (intermetallic σ,χ, and Cr ₂N) embedded in lath martensite.