摘要
The efect of cold rolling and annealing on the microstructure and properties of an Fe-13Cr-4.5Al-2.2Mo-1.1Nb alloy was investigated.The results showed that the recrystallization rate increased with increasing annealing temperature and rolling reduction.Recrystallization kinetics was constructed based on Johnson-Mehl-Avrami-Kolmogorov equation.The apparent activation energies of recrystallization were 161.385,144.770,and 95.362 kJ/mol for the samples with 30%,50%,and 70%cold-rolling reduction,respectively.With the cold-rolling reduction increasing,the textureγfber partly changed to<100>//ND.After annealing,γfber of the alloy with 30%thickness reduction retained,the subgrains disappeared through merging,and the proportion of coincident site lattice grain boundaries increased and became more continuous.30%cold-rolling reduction alloy annealed at 730°C for 120 min not only possessed relatively high yield strength(YS)of^730 MPa and ultimate tensile strength(UTS)of^880 MPa,but also exhibited elongation of^16%at room temperature.After annealing at 730°C for 120 min,70%cold-rolled alloy has fner and more uniform grain,with higher elongation of^22%,YS of^615 MPa and UTS of^774 MPa.The mechanism of mechanical properties diference was explained according to Schmid factor analysis.These results provided an efective way for tuning strength and ductility of FeCrAl alloy.
基金
The authors express gratitude to the financial support of the Key Project of Nuclear Safety and Advanced Nuclear Technology(2019YFB1901002)
the National Natural Science Foundation of China(U1867201,51801194)
the Sichuan Applied Basic Research Project(2018JY0430)
the Project supported by State Key Laboratory of Powder Metallurgy,Central South University,Changsha,China.
