Abstract:Varies annealing temperature and annealing time (500~580 ℃, 5~50 h) were conducted to SZA-6 (Zr-(0.35-0.65)Sn-(0.35-0.65)Nb-(0.15-0.45)Fe-(0.01-0.02)Si) alloy, the effects of annealing treatments on the corrosion resistance of zirconium alloy were investigated. The annealing samples were corroded in lithiated water with 0.01 mol/L LiOH at (360 ℃, 18.6 MPa), as well as superheated steam at (400 ℃, 10.3 MPa). The microstructures of the samples were examined by SEM, TEM and EDS. The results show that samples annealed at 500 ℃ are in a partial recrystallization state and samples annealed at 580 ℃ are in a complete recrystallization state. Annealing time shows no obvious effect on the size of second phase particles(SPPs) in both samples. Hexagonal close packed Zr(Nb,Fe,Cr)₂ SPPs, tetragonal Zr₅Si₄ and orthogonal Zr₃Fe SPPs are observed in the matrix of the alloy. The corrosion resistance of SZA-6 alloy decreases with the increase of annealing temperature and is insensitive to the annealing time in the both water chemistries. Annealing time shows no obvious effect on the corrosion resistance of SZA-6 alloy.

Key words: zirconium alloy; second phase particle; annealing treatment; microstructure; corrosion resistance