介绍了异步叠轧技术(AARB)的发展过程、工艺原理,异步叠轧过程中材料的几何变化、组织特征、晶粒细化机理、织构演变、性能以及模拟等方面的研究进展,分析了目前异步叠轧制备超细晶材料研究中存在的一些问题,同时分析了异步叠轧技术的优越性,指出异步叠轧技术是一种极具生产潜力的制备超细晶或纳米晶块体材料并且可以实现产业化的生产技术方法.
参考文献
| [1] | Kim Y S;Kang S H;Shin D H.Effect of rolling direction on the microstructure and mechanical properties of accumulative roll bonding(ARB) processed commercially pure 1050 aluminum alloy[J].Materials Science Forum,2006(503-504):681. |
| [2] | Linli Zhu;Haihui Ruan;Xiaoyan Li .Modeling grain size dependent optimal twin spacing for achieving ultimate high strength and related high ductility in nanotwinned metals[J].Acta materialia,2011(14):5544-5557. |
| [3] | Naoki Takata;Yusuke Ohtake;Kazuhisa Kita .Increasing the ductility of ultrafine-grained copper alloy by introducing fine precipitates[J].Scripta materialia,2009(7):590-593. |
| [4] | Wang, W.;Dai, Y.;Li, J.;Liu, B. .An atomic-level mechanism of annealing twinning in copper observed by molecular dynamics simulation[J].Crystal growth & design,2011(7):2928-2934. |
| [5] | Valiev RZ.;Alexandrov IV.;Islamgaliev RK. .Bulk nanostructured materials from severe plastic deformation [Review][J].Progress in materials science,2000(2):103-189. |
| [6] | 郭炜,王渠东.大塑性变形制备超细晶储氢材料的研究进展[J].材料导报,2009(19):71-74. |
| [7] | A. Azushima;R. Kopp;A. Korhonen;D. Y. Yang;F. Micari;G. D. Lahoti;P. Groche;J. Yanagimoto;N. Tsuji;A. Rosochowski;A. Yanagida .Severe plastic deformation (SPD) processes for metals[J].CIRP Annals,2008(2):716-735. |
| [8] | Faraji, G.;Mashhadi, M.M.;Kim, H.S. .Microstructure inhomogeneity in ultra-fine grained bulk AZ91 produced by accumulative back extrusion (ABE)[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2011(13/14):4312-4317. |
| [9] | 黄光杰,邹彬,黄鑫,陈泽军,刘庆.累积复合轧制法制备层状超细晶材料的研究现状[J].材料导报,2011(09):6-10,27. |
| [10] | Ruslan Z. Valiev;Terence G. Langdon .Principles of equal-channel angular pressing as a processing tool for grain refinement[J].Progress in materials science,2006(7):881-981. |
| [11] | 郭廷彪,丁雨田,胡勇,袁训锋,曹军.等径角挤压过程中材料的流变行为研究[J].材料导报,2009(18):93-96. |
| [12] | ChuH S;Liu K S;Yeh J W .An in situ composite of Al (graphite,Al4C3) produced by reciprocating extrusion[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2000,277(1-2):25. |
| [13] | Ruslan Z. Valiev;Yuri Estrin;Zenji Horita .Producing Bulk Ultrafine-Grained Materials by Severe Plastic Deformation[J].JOM,2006(4):33-39. |
| [14] | 郭强,严红革,陈振华,张辉.多向锻造技术研究进展[J].材料导报,2007(02):106-108. |
| [15] | Zenji Horita;Terence G. Langdon .Achieving exceptional superplasticity in a bulk aluminum alloy processed by high-pressure torsion[J].Scripta materialia,2008(11):1029-1032. |
| [16] | Tsuji N;Saito Y;L ee S H et al.Accumulative roll-bonding(ARB)and other new techniques to produce bulk ultrafine grained materials[J].Advances in Engineering Materials,2003,5(05):338. |
| [17] | Y. Saito;N. Tsuji;H. Utsunomiya;T. Sakai;R. G. Hong .Ultra-fine grained bulk aluminum produced by accumulative roll-bonding (ARB) process[J].Scripta materialia,1998(9):1221-1227. |
| [18] | Saito Y.;Tsuji N.;Sakai T.;Utsunomiya H. .Novel ultra-high straining process for bulk materials - Development of the accumulative roll-bonding (ARB) process[J].Acta materialia,1999(2):579-583. |
| [19] | Sato M;Tsuji N;Minamino Y et al.Fabrication of surface nanocrystalline aluminum alloys[J].Materials Science Forum,2003,426-432:2753. |
| [20] | M.Z. Quadir;M. Ferry;O. Al-Buhamad .Shear banding and recrystallization texture development in a multilayered Al alloy sheet produced by accumulative roll bonding[J].Acta materialia,2009(1):29-40. |
| [21] | Shaarbaf M;Toroghinejad MR .Nano-grained copper strip produced by accumulative roll bonding process[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2008(1/2):28-33. |
| [22] | Wang Q F;Xiao X P;Hu J et al.An ultrafine-grained AZ31 magnesium alloy sheet with enhanced superplasticity prepared by accumulative roll bonding[J].Journal of Iron and Steel Research International,2007,14(z1):167. |
| [23] | Cosa A L M;Reis A C C;Kestens L et al.Ultra grain refinement and hardening of IF-steel during accumulative rollbonding[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2005,406(1-2):279. |
| [24] | 刘华赛,张滨,张广平.累积叠轧焊制备Al/AZ31多层复合材料及其强度[J].稀有金属,2009(02):285-289. |
| [25] | 王军丽,史庆南,钱天才,王绍华,杨喜昆.大变形异步叠轧技术制备高强高导超细晶铜材研究[J].航空材料学报,2010(03):14-18. |
| [26] | 王军丽,SHI Qing-nan,吴承玲.大变形异步叠轧法制备超细晶铜材的再结晶研究[J].材料热处理学报,2008(04):87-90. |
| [27] | 王军丽,史庆南,王效琪.异步累积叠轧技术制备超细晶铜材退火过程组织及取向研究[J].材料工程,2008(11):5-8. |
| [28] | WANG Jun-li,SHI Qing-nan,QIAN Tian-cai,WANG Shao-hua,YANG Xi-kun.Recrystallized microstructural evolution of UFG copper prepared by asymmetrical accumulative rolling-bonding process[J].中国有色金属学报(英文版),2010(04):559-563. |
| [29] | 王军丽,史庆南,吴承玲,张坤华.大变形异步叠轧制备超细晶铜材叠轧过程组织演变研究[J].新技术新工艺,2006(04):96-99. |
| [30] | 戴辉,孙蓟泉,唐荻.异速异步轧制翼缘板钢晶粒的变化特征[J].材料热处理学报,2011(05):61-67. |
| [31] | 吴承玲,史庆南,王军丽,张坤华.异步叠轧(AARB)铜板再结晶的研究[J].金属热处理,2006(07):81-83. |
| [32] | 陈亮维,韩波,史庆南,起华荣,王效琪.纯铜深度塑性变形的织构组织均匀性研究[J].材料科学与工艺,2010(03):391-395. |
| [33] | 陈亮维,史庆南,陈登权,王军丽,谢明.叠轧法深度塑性变形铜组织的研究[J].昆明理工大学学报(理工版),2008(06):11-16. |
| [34] | Chen Liangwei;Shi Qingnan;Chen Dengquan .Research of textures of ultrafine grains pure copper produced by accumulative roll-bonding[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2009,508(1-2):37. |
| [35] | 陈玉良,史庆南,起华荣,王效琪,韩波,罗许.纯铜叠轧的刚塑性有限元模拟[J].新技术新工艺,2009(06):64-67. |
| [36] | 夏伟军,蔡建国,陈振华,陈刚,蒋俊峰.异步轧制AZ31镁合金的微观组织与室温成形性能[J].中国有色金属学报,2010(07):1247-1253. |
| [37] | 陈彬,林栋樑,曾小勤,卢晨,彭颖红.异步纵横交叉轧制工艺参数对AZ31镁合金显微组织和性能的影响[J].机械工程材料,2010(03):48-51,56. |
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