简介概要

Unveiling annealing texture formation and static recrystallization kinetics of hot-rolled Mg-Al-Zn-Mn-Ca alloy

来源期刊:JOURNAL OF MATERIALS SCIENCE TECHNOLOG2020年第8期

论文作者:Qinghang Wang Bin Jiang Aitao Tang Jie Fu Zhongtao Jiang Haoran Sheng Dingfei Zhang Guangsheng Huang Fusheng Pan

文章页码:104 - 118

摘    要:The development of Mg-Al-Zn-Mn-Ca series alloys provides a potential prospect to achieve high strength and formability at room temperature(RT). The formation of elliptical annular texture is treated as a crucial factor for the enhanced RT formability. However, the origin of such an elliptical annular texture formation has been rarely reported. Herein, we unveiled the formation and evolution of elliptical annular texture in the hot-rolled Mg-1.6 Al-0.8 Zn-0.4 Mn-0.5 Ca(AZMX1100, wt.%) alloy after annealing at different temperatures for 1 h, and its static recrystallization(SRX) kinetics in given annealing temperature for different time. The results revealed that the formation of elliptical annular texture in the hot-rolled AZMX1100 alloy after annealing was derived from nucleation-oriented SRX mechanism, which took place in 200-300°C, induced by cracked chain-shaped Al2 Ca phases, contraction twins, intersections of double twins, intersections of double twins and grain boundaries and non-basal slips. On further annealing from300-450°C, the grains with 45°–70°transverse direction(TD) preferentially grew, which made elliptical annular texture extended along the TD. Based on the Johnson-Mehl-Avrami-Kolmogorov(JMAK) model,Avrami exponent n value was estimated to be 0.68–1.02, attributed to non-random SRX nucleation, giving rise to the lower activation energy QRof nucleation of ~74.24 k J/mol. Since the co-segregation of Al, Zn and Ca atoms in grain boundaries created a strong interaction of solutes and grain boundaries, the hot-rolled AZMX1100 alloy exhibited the higher activation energy Qg(~115.48 k J/mol) of grain growth.

详情信息展示

Unveiling annealing texture formation and static recrystallization kinetics of hot-rolled Mg-Al-Zn-Mn-Ca alloy

Qinghang Wang1,Bin Jiang1,2,Aitao Tang1,Jie Fu1,Zhongtao Jiang3,Haoran Sheng4,Dingfei Zhang1,Guangsheng Huang1,2,Fusheng Pan1,2

1. State Key Laboratory of Mechanical Transmissions, College of Materials Science and Engineering, Chongqing University2. Chongqing Academy of Science and Technology3. Research Institute for New Materials Technology, Chongqing University of Arts and Sciences4. Shanghai Aerospace Equipment Manufactory

摘 要:The development of Mg-Al-Zn-Mn-Ca series alloys provides a potential prospect to achieve high strength and formability at room temperature(RT). The formation of elliptical annular texture is treated as a crucial factor for the enhanced RT formability. However, the origin of such an elliptical annular texture formation has been rarely reported. Herein, we unveiled the formation and evolution of elliptical annular texture in the hot-rolled Mg-1.6 Al-0.8 Zn-0.4 Mn-0.5 Ca(AZMX1100, wt.%) alloy after annealing at different temperatures for 1 h, and its static recrystallization(SRX) kinetics in given annealing temperature for different time. The results revealed that the formation of elliptical annular texture in the hot-rolled AZMX1100 alloy after annealing was derived from nucleation-oriented SRX mechanism, which took place in 200-300°C, induced by cracked chain-shaped Al2 Ca phases, contraction twins, intersections of double twins, intersections of double twins and grain boundaries and non-basal slips. On further annealing from300-450°C, the grains with 45°–70°transverse direction(TD) preferentially grew, which made elliptical annular texture extended along the TD. Based on the Johnson-Mehl-Avrami-Kolmogorov(JMAK) model,Avrami exponent n value was estimated to be 0.68–1.02, attributed to non-random SRX nucleation, giving rise to the lower activation energy QRof nucleation of ~74.24 k J/mol. Since the co-segregation of Al, Zn and Ca atoms in grain boundaries created a strong interaction of solutes and grain boundaries, the hot-rolled AZMX1100 alloy exhibited the higher activation energy Qg(~115.48 k J/mol) of grain growth.

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