Relationship between mechanical properties and grain size of AZ80 at 350℃ under different strain rates 被引量：1

Relationship between mechanical properties and grain size of AZ80 at 350℃ under different strain rates

下载PDF

导出

摘要 The dynamic recrystallization refinement of magnesium alloy AZ80 by compression tests was studied,and its effect on the mechanical properties was investigated.It is observed that the microstructure of the as-cast billet with grain size of 240μm becomes refined to about 120,110,94 and 50μm after upsetting at 350℃ under strain rates of 0.01,0.1,1 and 10 s -1 respectively.The changes in the mechanical properties according to grain size show that yield strength significantly decreases with grain size increasing,while strain hardening exponent and micro hardness increase very sharply.Further,the grain size vs strain rate and change in Vickers micro hardness according to the various strain rates show that grain size and micro hardness decrease with strain rate increasing. The dynamic recrystallization refinement of magnesium alloy AZ80 by compression tests was studied,and its effect on the mechanical properties was investigated.It is observed that the microstructure of the as-cast billet with grain size of 240μm becomes refined to about 120,110,94 and 50μm after upsetting at 350℃ under strain rates of 0.01,0.1,1 and 10 s^ -1 respectively.The changes in the mechanical properties according to grain size show that yield strength significantly decreases with grain size increasing,while strain hardening exponent and micro hardness increase very sharply.Further,the grain size vs strain rate and change in Vickers micro hardness according to the various strain rates show that grain size and micro hardness decrease with strain rate increasing.

作者权国政宋涛周一俊王凤彪周杰

机构地区 College of Materials Science and Engineering

出处《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2010年第B07期584-588,共5页 中国有色金属学报（英文版）

基金 Project(cstc2009aa3012-1)supported by Science and Technology Committee of Chongqing,China Project(20100470813)supported by China Postdoctoral Science Foundation Project(2010011511)supported by Sharing Fund of Chongqing University’s Large-Scale Equipment,China

关键词 magnesium alloy REFINEMENT compression softening behaviour micro hardness 晶粒尺寸力学性能应变率显微硬度动态再结晶压缩实验机械性能屈服强度

分类号 TG146.22 [一般工业技术—材料科学与工程]

引文网络
相关文献

参考文献18

1杨续跃,吉泽升,H. MIURA,T. SAKAI.Dynamic recrystallization and texture development during hot deformation of magnesium alloy AZ31[J].中国有色金属学会会刊：英文版,2009,19(1):55-60. 被引量：18
2HE Xiao-ming,YU Zhong-qi,LAI Xin-min.A method to predict flow stress considering dynamic recrystallization during hot deformation. Computational Materials Science . 2008 被引量：1
3LIU Juan,CUI Zhen-shan,LI Cong-xing.Modelling of flow stress characterizing dynamic recrystallization for magnesium alloy AZ31B. Computational Materials Science . 2008 被引量：1
4TAKUDA H,MORISHITA T,KINOSHITA T,SHIRAKAWA N.Modelling of formula for flow stress of a magnesium alloy AZ31 sheet at elevated temperatures. Journal of Materials . 2005 被引量：1
5ZENG Z P,JONSSON S,ROVEN H J,ZHANG Y S.Modeling the flow stress for single peak dynamic recrystallization. Materials and Design . 2009 被引量：1
6AL-SAMMAN T,GOTTSTEIN G.Dynamic recrystallization during high temperature deformation of magnesium. Journal of Materials Science . 2008 被引量：1
7TAN J C,TAN M J.Dynamic continuous recrystallization characteristics in two stage deformation of Mg-3Al-1Zn alloy sheet. Journal of Materials Science . 2003 被引量：1
8FATEMI-VARZANEH S M,ZAREI-HANZAKI A,BELADI H.Dynamic recrystallization in AZ31 magnesium alloy. Journal of Materials Science . 2007 被引量：1
9FIELDS D S,BACKOFEN W A.Determination of strain hardening characteristics by torsion testing. Proceedings-American Society of Testing Materials . 1957 被引量：1
10Zhou M,Clode M P.Constitutive equations for modelling flow softening due to dynamic recovery and heat generation during plastic deformation. Mechanics of Materials . 1998 被引量：1

二级参考文献15

1CHINO Y, MABUCHI M. Plastic-forming processes for magnesium alloy [J]. Japan lnst of Light Metals, 2001, 51(5): 498-502. 被引量：1
2X1NG J, YANG X, MIUNA H, SAKAI T. Supereplasticity of magnesium alloy AZ31 processed by severe plastic deformation [J]. Mater Trans, 2007, 48(6): 1406-1411. 被引量：1
3WATANABE H, FUKUSUMI M. Mechanical properties and texture of a superplastically deformed AZ31 magnesium alloy [J]. Mater Sci EngA, 2008, 477(3):153-161. 被引量：1
4ION S E, HUMPHREYS F J, WHITE S H. Dynamic recrystallization and the development of microstructure during high temperature deformation of magnesium [J]. Acta Metall, 1982, 30(10): 1909- 1919. 被引量：1
5KAIBYSHEV R, SITDIKOV O. On bulging mechanism of dynamic recrystallization [C]// MCNELLEY T D. Recrystallization and Related Phenomena (REX'96). Monterey: MIAS, 1997:287 294. 被引量：1
6GALIYEV A, KAIBYSHEV R, GOTTSTEIN G. Correlation of plastic deformation and dynamic recrystallization in magnesium alloy ZK60 [J]. Acta Mater, 2001, 49(4): 1199-1207. 被引量：1
7SITDIKOV O, KAIBYSHEV K, SAKAI T. Dynamic recrystallization based on twinning in coarse-grained magenisium [J]. Materials Science Forum, 2003, 419/422(1): 521-526. 被引量：1
8HIGASHIDA K, TAKAMURA J, NARITA N. The formation of deformation bands in fcc crystals [J]. Mater Sci Eng, 1986, 81(8): 239-258. 被引量：1
9HUMPHREYS F J, HATHERLY M. Recrystallization and related annealing phenomena [M]. Oxford: Pergamon, 1995. 被引量：1
10YANG X, MIUNA H, SAKAI T. Dynamic evolution of new grains in magnesium alloy AZ31 during hot deformation [J]. Mater Trans, 2003, 44(1): 197 203. 被引量：1

共引文献17

1苏振国,牛晓冬,安健,李光玉.Tensile properties of hot rolled Mg_(97)Zn_1Y_2 alloy sheets at elevated temperatures[J].中国有色金属学会会刊：英文版,2010,20(1):43-46.
2陈洪美,于化顺,Suk-bong KANG,闵光辉,金云学.Effect of rolling temperature on microstructure and texture of twin roll cast ZK60 magnesium alloy[J].Transactions of Nonferrous Metals Society of China,2010,20(11):2086-2091. 被引量：2
3S.ABDESSAMEUD,H.AZZEDDINE,B.ALILI,D.BRADAI.Grain growth in AZ31 alloy after uniaxial compression[J].Transactions of Nonferrous Metals Society of China,2010,20(12):2215-2222. 被引量：3
4何运斌,潘清林,覃银江,刘晓艳,李文斌,Yu-lung CHIU,J.J.J.CHEN.ZK60镁合金热变形过程中的动态再结晶动力学[J].中国有色金属学报,2011,21(6):1205-1213. 被引量：22
5李冬勤,徐磊,黄兴民,戴光泽.7A04铝合金动态再结晶的临界应变研究[J].材料工程,2013,41(4):23-27. 被引量：10
6史国栋,乔军,何敏,张庆丰,张永彬,陈敏.铸轧AZ31镁合金在高温拉伸中的动态再结晶行为[J].中国有色金属学报,2013,23(7):1796-1804. 被引量：3
7姜俊,李慧中,欧阳杰,梁霄鹏,李轶,刘楚明.多向锻造AZ80A镁合金的静态再结晶行为[J].中国有色金属学报,2014,24(9):2205-2212. 被引量：6
8徐岩,胡连喜,孙宇,贾建波,姜巨福,马庆国.Microstructure and mechanical properties of AZ61 magnesium alloy prepared by repetitive upsetting-extrusion[J].Transactions of Nonferrous Metals Society of China,2015,25(2):381-388. 被引量：11
9罗天骄,冀焕明,崔杰,赵福泽,冯小辉,李应举,杨院生.As-cast structure and tensile properties of AZ80 magnesium alloy DC cast with low-voltage pulsed magnetic field[J].Transactions of Nonferrous Metals Society of China,2015,25(7):2165-2171. 被引量：9
10刘志义,黄田田,刘文娟,Sukbong KANG.Dislocation mechanism for dynamic recrystallization in twin-roll casting Mg–5.51Zn–0.49Zr magnesium alloy during hot compression at different strain rates[J].Transactions of Nonferrous Metals Society of China,2016,26(2):378-389. 被引量：1

同被引文献5

1冯建铭,ELIANE Giraud,曹旭东,李淑慧,PHILIPPE Dal Santo.考虑应变补偿的Al2024合金本构方程研究[J].塑性工程学报,2017,24(6):151-156. 被引量：9
2柏阳,吴玉程,罗志勇,汪伟.基于Arrhenius方程和BP神经网络的2024Al/Al18B4O33w复合材料热变形流变应力预测[J].锻压技术,2019,44(8):168-175. 被引量：8
3孔得磊,雷丽萍,曾攀.40Mn钢热变形行为及加工图研究[J].锻压技术,2019,44(3):122-132. 被引量：12
4叶丽燕,翟月雯,周乐育,芦建邦,蒋鹏.25Cr2Ni4MoV钢高温变形流变应力模型[J].锻压技术,2019,44(3):144-148. 被引量：7
5周峰,王克鲁,鲁世强,任书杰,陈虚怀,万鹏.基于应变补偿的含稀土Ti_2AlNb基合金高温本构模型[J].稀有金属,2019,43(3):239-246. 被引量：9

引证文献1

1李全,金朝阳.改进的Fields-Backofen本构模型描述AZ80镁合金热压缩流动应力的比较研究[J].锻压技术,2021,46(3):221-228. 被引量：5

二级引证文献5

1陈天天,施晨琦,宁哲达,闻明,管伟明,郭俊梅,王传军.金属及合金材料热变形中的本构模型与热加工图研究进展[J].材料导报,2022,36(S01):416-424. 被引量：6
2李雪珂,吴华.石墨烯浓度对AZ31镁合金车板表面MAO涂层组织演变的影响[J].真空科学与技术学报,2021,41(5):495-499. 被引量：3
3高亚男,郑镭,张全逾.钒微合金化汽车用铸造镁合金的组织与性能[J].钢铁钒钛,2023,44(4):190-195.
4孟倩,石鹏飞,耿宝光,刘洋洋,赵瑞峰.液态模锻浇注温度对AZ80机械壳体力学性能和抗氧化性能的影响[J].热加工工艺,2024,53(11):125-128.
5高则柱,李俊健,刘专超.钛含量对锻压态机械壳体镁合金性能的影响[J].热加工工艺,2024,53(12):116-119.

1Cai Ye,Su Huaqin(Department of Mechanical Engineering,Southeast University,Nanjing 210096).SiC-Mg INTERFACE OF SiC_p/AZ80 COMPOSITE[J].中国有色金属学会会刊：英文版,1996,6(4):114-116.
2刘奋成,贺立华,柯黎明,简晓光,刘强.热处理对MWCNTs/AZ80镁基复合材料组织和力学性能的影响[J].稀有金属材料与工程,2015,44(4):989-994. 被引量：10
3简晓光,柯黎明,刘奋成,邢丽,黄春平.搅拌摩擦加工制备MWCNTs/AZ80复合材料的组织和力学性能[J].南昌航空大学学报（自然科学版）,2013,27(1):8-13. 被引量：9
4徐卫平,李蒙江,柯黎明,邢丽.高体积分数MWCNTs/AZ80复合材料的显微组织[J].中国有色金属学报,2015,25(7):1839-1845. 被引量：1
5Tang Furong,Mao Xianbiao,Zhang Lianying,Yin Huiguang,Li Yan.Effects of strain rates on mechanical properties of limestone under high temperature[J].Mining Science and Technology,2011,21(6):857-861. 被引量：10
6刘奋成,刘强,简晓光,柯黎明.搅拌摩擦加工MWCNTs/AZ80复合材料热膨胀性能研究[J].热加工工艺,2013,42(18):1-6. 被引量：2
7倪圆苹,邢丽,徐卫平,仇一卿,柯黎明.MWCNTs/AZ80复合材料在高温时的组织特征[J].南昌航空大学学报（自然科学版）,2016,30(1):47-51. 被引量：1
8蔡叶,苏华钦.SiCP／AZ80镁基复合材料凝固组织研究[J].铸造,1996,45(6):5-8. 被引量：6
9张路,王威,王绳祖.三轴压缩条件下岩石突发失稳过程的实验研究[J].西北地震学报,1993,15(2):30-35.
10蔡叶,苏华钦.SiC_P/AZ80镁基复合材料的界面与断口特征[J].复合材料学报,1997,14(2):76-79. 被引量：20

Transactions of Nonferrous Metals Society of China

2010年第B07期

浏览历史

内容加载中请稍等...