Mechanism of high-energy pulsed current-assisted rolling of 08AL carbon steel ultra-thin strip
Zhong-kai Ren1,2,3, Ya-nan Xu1,2,3, Jia-zhao Chen1,2,3, He Li1,2,3, Rui-lin Yuan1,2,3, Zhen-hua Wang1,2,3, Tao Wang1,2,3, Xiao Liu1,2,3
1 College of Mechanical and Vehicle Engineering, Taiyuan University of Technology, Taiyuan 030024, Shanxi, China 2 Engineering Research Center of Advanced Metal Composites Forming Technology and Equipment (Ministry of Education), Taiyuan University of Technology, Taiyuan 030024, Shanxi, China 3 National Key Laboratory of Metal Forming Technology and Heavy Equipment, China National Heavy Machinery Research Institute Co., Ltd., Xi’an 710016, Shaanxi, China
Mechanism of high-energy pulsed current-assisted rolling of 08AL carbon steel ultra-thin strip
Zhong-kai Ren1,2,3, Ya-nan Xu1,2,3, Jia-zhao Chen1,2,3, He Li1,2,3, Rui-lin Yuan1,2,3, Zhen-hua Wang1,2,3, Tao Wang1,2,3, Xiao Liu1,2,3
1 College of Mechanical and Vehicle Engineering, Taiyuan University of Technology, Taiyuan 030024, Shanxi, China 2 Engineering Research Center of Advanced Metal Composites Forming Technology and Equipment (Ministry of Education), Taiyuan University of Technology, Taiyuan 030024, Shanxi, China 3 National Key Laboratory of Metal Forming Technology and Heavy Equipment, China National Heavy Machinery Research Institute Co., Ltd., Xi’an 710016, Shaanxi, China
摘要 To improve the plastic deformation performance of a 08AL carbon steel ultra-thin strip, a pulsed electric field was integrated into the plastic processing of the ultra-thin strip, and the effects of high-energy current on its deformation ability were investigated. Current-assisted tensile tests were employed, and the results clarified that the pulsed current could reduce the activation energy of faults and promoted dislocation slip within grains and at grain boundaries, leading to a decrease in the deformation resistance of the metal and an increase in its plastic properties. Under the current density of 2.0 A/mm2, the yield strength, tensile strength, and elongation of the rolled sample reached 425 MPa, 467 MPa, and 12.5%, respectively. During the rolling process, it was found that the pulsed current promoted the dynamic recrystallization of the ultra-thin strip, reduced its dislocation density and deformation resistance, and promoted the coordinated deformation of the metal.
Abstract:To improve the plastic deformation performance of a 08AL carbon steel ultra-thin strip, a pulsed electric field was integrated into the plastic processing of the ultra-thin strip, and the effects of high-energy current on its deformation ability were investigated. Current-assisted tensile tests were employed, and the results clarified that the pulsed current could reduce the activation energy of faults and promoted dislocation slip within grains and at grain boundaries, leading to a decrease in the deformation resistance of the metal and an increase in its plastic properties. Under the current density of 2.0 A/mm2, the yield strength, tensile strength, and elongation of the rolled sample reached 425 MPa, 467 MPa, and 12.5%, respectively. During the rolling process, it was found that the pulsed current promoted the dynamic recrystallization of the ultra-thin strip, reduced its dislocation density and deformation resistance, and promoted the coordinated deformation of the metal.
Zhong-kai Ren,Ya-nan Xu,Jia-zhao Chen, et al. Mechanism of high-energy pulsed current-assisted rolling of 08AL carbon steel ultra-thin strip[J]. Journal of Iron and Steel Research International, 2024, 31(02): 416-427.
2024, Vol. 31 
