Ultrafine Grained Duplex Structure Developed by ART-annealing in Cold Rolled Medium-Mn Steels
Jie SHI1,Jun HU1,2,Chang WANG1,Cun-yu WANG1,Han DONG1,Wen-quan CAO1
1. National Engineering Research Center of Advanced Steel Technology NERCAST, Central Iron and Steel Research Institute CISRI, Beijing 100081, China 2. College of Materials Science and Engineering,Huazhong University of Science and Technology, Wuhan 430074, Hubei, China
Ultrafine Grained Duplex Structure Developed by ART-annealing in Cold Rolled Medium-Mn Steels
Jie SHI1,Jun HU1,2,Chang WANG1,Cun-yu WANG1,Han DONG1,Wen-quan CAO1
1. National Engineering Research Center of Advanced Steel Technology NERCAST, Central Iron and Steel Research Institute CISRI, Beijing 100081, China 2. College of Materials Science and Engineering,Huazhong University of Science and Technology, Wuhan 430074, Hubei, China
ժҪ The microstructural evolutions of the cold rolled Fe-0��1C-5Mn steel during intercritical annealing were examined using combined advanced techniques. It was demonstrated that intercritical annealing results in an ultrafine granular ferrite and austenite duplex structure in cold rolled 0��1C-5Mn steel. The strong partitioning of manganese and carbon elements from ferrite to austenite was found during intercritical annealing by scanning transmission electron microscopy (STEM) and X-ray diffraction (XRD). Strong effects of boundary characters on the austenite formation were indicated by austenite fast nucleation and growth in the high angle boundaries but sluggish nucleation and growth in the low angle boundaries. The ultrafine grained duplex structure in 0��1C-5Mn was resulted from the the sluggish Mn-diffusion and the extra high Gibbs free energy of ferrite phase. Based on the analysis of the microstructure evolution, it was pointed out that the intercritical annealing of the medium-Mn steels could be applied to fabricate an ultrafine duplex grained microstructure, which would be a promising approach to develop the 3rd generation austomobile steels with excellent combination of strength and ductility.
Abstract��The microstructural evolutions of the cold rolled Fe-0��1C-5Mn steel during intercritical annealing were examined using combined advanced techniques. It was demonstrated that intercritical annealing results in an ultrafine granular ferrite and austenite duplex structure in cold rolled 0��1C-5Mn steel. The strong partitioning of manganese and carbon elements from ferrite to austenite was found during intercritical annealing by scanning transmission electron microscopy (STEM) and X-ray diffraction (XRD). Strong effects of boundary characters on the austenite formation were indicated by austenite fast nucleation and growth in the high angle boundaries but sluggish nucleation and growth in the low angle boundaries. The ultrafine grained duplex structure in 0��1C-5Mn was resulted from the the sluggish Mn-diffusion and the extra high Gibbs free energy of ferrite phase. Based on the analysis of the microstructure evolution, it was pointed out that the intercritical annealing of the medium-Mn steels could be applied to fabricate an ultrafine duplex grained microstructure, which would be a promising approach to develop the 3rd generation austomobile steels with excellent combination of strength and ductility.
Jie SHI,Jun HU,,Chang WANG,Cun-yu WANG,Han DONG,Wen-quan CAO. Ultrafine Grained Duplex Structure Developed by ART-annealing in Cold Rolled Medium-Mn Steels[J]. �й������ڿ���, 2014, 21(2): 208-214.
Jie SHI,Jun HU,,Chang WANG,Cun-yu WANG,Han DONG,Wen-quan CAO. Ultrafine Grained Duplex Structure Developed by ART-annealing in Cold Rolled Medium-Mn Steels. Chinese Journal of Iron and Steel, 2014, 21(2): 208-214.