本文是作者对背散射电子衍射技术在高应变率态载荷下诱发的几种晶体(包括FE-Cr-Ni单晶,304不锈钢和纳米铜)变形结构演化的最新研究结果,以及对相关研究进展的简要评述.具体内容包括:(1)进一步辨认剪切带中再结晶现象,澄清长期来学者们对该问题看法上的分歧;(2)采用Meyers等提出的结构演化模型对再结晶予以合理的解释;(3)在实验基础上,根据位错动力学理论,对局部化过程中再结晶的晶粒生长予以定量描述,其结果与实验事实吻合.
Investigation made by authors into Electron-Backscatter-Diffraction (EBSD) technique and its application in dynamic deformation in Fe-Cr-Ni single crystal, 304 stainless steel and nanocopper is critical reviewed. The results are the following: (1) recrystallization occurring in the shear bands induced during high-strain rates is further clarified; (2) both either static/ dynamic recrystallization is firstly recog-nized in the shear bands, and this leads to an in-depth understanding of recrystallization mechanism;(3)a grain-boundary rotation model for recrystallization is proposed, and by which the calculation is in good agreement with experimental observation.
参考文献
| [1] | M.A.Meyers,H-r Pak,Observation of an adiabatic shear band in titanium by high voltage transmission electron microscopy,Acta materialia,34,2493(1986) |
| [2] | U.Andrade,M.A.Meyers,K.S.Vecchio,A.H.Chokshi,Dy-namic recrystallization in high-strain,high strain-rate plastic deformation of copper,Acta materialia,42,3183(1994) |
| [3] | J.A.Hines,K.S.Vecchio,Dynamic recstallization in adia-batic shear bands in shock-load copper,In:Metallurgi-cal and Materials Applications of Shock Wave and High-Strain-Rate Phenomena,eds.L.E.Murr,K.Staudhammer and M.A.Meyers,1995,P421 |
| [4] | V.F.Nwsterenko,M.A.Meyers,Shear localization and re-crystallization in high-strain,high-strain-rate deforma-tion of tantalum,Mater.Sci.Eng.,A299,23(1997) |
| [5] | C M Glass,G.M Moss,S.K.Golaski,Response of Metals to High Velocity Deformation,Eds.P.Shewman and V.F.Zackey,New York.1961,p115 (interscience) |
| [6] | M.C.Mataya,M.J.Carr,Flow localization and shear band formation in a precipitation strengthening austenite stain-less steel,Metall.Mater.Trans.,13A,1263(1982) |
| [7] | M.A.Meyers,Y.B.Xu,Q.Xue,Microstructural evolution in adiabatic shear localization in stainless steel,Acta Ma-terialia,51,1307(2003) |
| [8] | Q.Li,Y.B.Xu,A model of dynamic recrystallization in al-loys during high strain plastic deformation,J.Mater.Sci.Tech.,16,435(1999) |
| [9] | J.F.C.Lins,H.R.Z.Sandim,A microstructural investiga-tion of adiabatic shear bands in an intersticial steel,Mater.Sci.Eng.,457,205(2007) |
| [10] | Y.B.Xu,Y.L.Bai,L.T.Shen,Formation,microstructure and development of the localized shear deformation in low carbon steels,Acta materialia,44,1917-1919(1996) |
| [11] | D.R.Chichili,K.T.Ramesh,The high-strain-rate response of alpha-titanium:experiments,deformation mechanisms and modeling,Acta materialia,46,1025(1998) |
| [12] | Y.B.Xu,M.A.Meyers,Microstructural evolution of shear band induced during explosion in Ti-6A1-4V alloy,J.Mater Sci.Eng.,19,385(2003) |
| [13] | Meyers M.A,Pak H-r.Observation of an adiabatic shear band in titanium by high-voltage transmission electron microscopy.Acta Materialias,34,2493(1986) |
| [14] | L.E.Murr,C.S.Niou,S.Pappu,LEDS in ultra-high strain rate deformation,Phys Status solids,A149,235(1995) |
| [15] | Q.Li,Y.B.Xu,Dynamic recrystallization induced by plas-tic deformation at high-strain rate in a model alloy,Mater.Sci.Eng.,A276,250(2000) |
| [16] | J.A.Hines,K.S.Vecchio,in Metallurgical and Mate-rials Applications of Shock-Wave and High-Strain-Rate Phenomena,eds.L.E.Hurr,K.Staudhammer and M.A.Meyers,(1995) p.421 |
| [17] | M.A.Meyers,Y.J.Chen,High-strain-rate behavior of tan-talum,Metall.Mater.Trans.,26A,2493(1995) |
| [18] | S.Pappu,C.S.Niou,L.E.Murr,et al,High-strain-rate be-havior pf pure tantalum in explosively formed penetrator and shaped charge regimes:in Metallurgical and Materials Application of Shock-Wave and High-Strain Rate Phe-nomena,L.E.Murr,K.Staundhammer and M.A.Meyers,eds.,1995,p.495 |
| [19] | L.E.Murr,C.S.Niou,et al,Residual microstrctures in ex-plosively formed in tantalum perpetrators,Script Materi-alia,34,297(1994) |
| [20] | V.F.Nwsterenko,M.A.Meyers,Shear localization and re-crystallization in high-strain rate deformation of tanta-lum,Mater.Sci.Eng.,A299,23(1997) |
| [21] | Nemat-Nasser,J.B.Isaacs,Direct measurement of isother-mal flow stress of metals at elevated temperatures and high strain rates with application to Ta and Ta W alloys.Acta Materialia,45,907(1997) |
| [22] | Y.B.Xu,W.L.Zhong,Y.J.Chen,L.T.Shen,Y.L.Bai,M.A.Meyers,Shear localization and recrystallization in dynamic deformation of 8090 Al-Li alloy,Mat.Sci.Eng.,299A,287(2001) |
| [23] | Y.B.Xu,Z.Ling,Y.L.Bai,Evolution of thermoplastic shearlocalization and related microstructures in Al/SiCp com-posites under dynamic compression,JMST,18,504(2002) |
| [24] | L.E.Murr,C.Pizana,Dynamic recrystallization:The dy-namic deformation regime,Metall.Mater.Trans.,38A,2611(2007) |
| [25] | K.M.Cho,S.G.Lee,S.RNutt,J.Dufly,Adiabatic shear band formation during dynamic torsional deformation of an HY-100 steel.Acta mater.,41,923(1993) |
| [26] | A.J.Dedford,A.L.Wingrove,The phenomenon of adia-batic shear deformation,J.Aust.Inst.Met.,19,61(1974) |
| [27] | H.C.Rogers,Adiabatic plastic deformation,Ann.Rev.Mater.Sci.,9,283(1979) |
| [28] | F.J.Humphreys,Characterisation of fine-scale microstruc-tures by EBSD,Script mater.,51,771(2004) |
| [29] | F.J.Humphreys,Review paper:Grain and subgrain char-acterisation by electron backscatter diffraction,J.Mater.Sci.,36,3833(2001) |
| [30] | A.F.Gourues,Electron backscatter diffraction and crack-ing,Mater.Sci.Tech.,18,119(2002) |
| [31] | ZHU Jing,Orientation mapping electron microbeam,J.Chinese Electron Microscopy Society,16,210(1997)(朱静,取向成像电于微束,电子显微学报,16,210(1997)) |
| [32] | WANG Maoqiu,SHI Jie,HUI Weijun,DONG Han,EBSD analysis technology and its application in iron and steel,J of Iron and Steel Research,19,6(2007)(王眷芳,时捷,王毛球,惠卫军,董瀚,EBSD分析技术及其在钢铁材料研究中的应用,钢铁研究学报,19,6(2007)) |
| [33] | F.J.Humphreys,Quantitative metallography by electron backscattered diffraction J.Microscopy,195,170(1999) |
| [34] | F.J.Humphreys,Y.Huang,I.Brough,et al,Electron backscatter diffraction of grain and subgrain structures-resolution considerations,J.Microscopy,195,212(1999) |
| [35] | JIN Li,Mishara R.K,Kubic R,In-situ EBSD analysis on the microstructures during deformation,Proceeding of EBSD Technical and Scienfitic exchange meeting 11-14 Dec.Shanghua,China P2(靳丽,R.K.Mishara,R.Kubic,材料变形过程中的原位电子背散射衍射(in-situ EBSD)分析,2008年全国电子背散射衍射(EBSD)技术学术交流研讨会会议沦文集,2008年,12月11-14日,中国上海,P1) |
| [36] | YANG Ping,EBSD Technique and its Application,(Bei-jing,Metallurgy Industrial Press,2007)(杨平,电子背散射衍射技术及其应用(北京,冶金工业出版社,2007) |
| [37] | LI Bolong,Quantitative investigation of microstnictural evolution during deformation and recrystallization of IF steel,Ph.D Dissertation,Tsinghua University,2003(李伯龙,IF钢形变与再结晶过程中微观组织与织构变化的定量研究,清华大学博士论文,2003) |
| [38] | HKL Technology-Manual:Channel 5 (HKL Technology-Channel 5) |
| [39] | Y.B.Xu,Z.G.Wang,Y.L.Bai,L.T.Shen,Microstructure of shear localization in low-carbon steels,Mater.Sci.Eng.,A114,81(1989) |
| [40] | L.W.Meyer,S.Manwaring:Metallurgical Application of Shock-Wave and High-Strain Rate Phenemona,Marcel Dekker,New York,NY,1986,p.657 |
| [41] | Y.C.Chen,M.A.Meyers,V.F.Nesterenko,Spontaneous and forced shear localization in high-strain-rate deforma-tion of tantalum,Mater.Sci.Eng.,A268,70(1999) |
| [42] | M.P.Bondar,V.F.Nesterenko,Contact deformation and bonding criteria under impulsive loading,Combustion Ex-plosion shock waves,27,364(1991) |
| [43] | Y.B.Xu,J.H.Zhang,Y.L.Bai,M.A.Meyers,Shear localiza-tion in dynamic deformation:Microstructural evolution,Metall.Mater.Trans.,39A,811(2008) |
| [44] | YANG Ping,Fu Yunyi,Stress induce phase transforma-tion by EBSD,J.Chinese Electron Microscopy Society,19,541(2000)(杨平,付云义等,利用EBSD技术研究应变诱导相变过程,电子显微学报,19,541(2000)) |
| [45] | QI Junjie,SUN Zhuqing,Structure and orientation during deformation in low-carbon austenite under cooling,Acta Metall.Sin.,38,629(2002)(齐俊杰,杨王钥,孙祖庆,低碳钢过冷奥氏体形变过程中的组织及取向变化,金属学报,38,629(2002)) |
| [46] | LIU Jing,WANG Renhui,CHEN Yufang,Recrystalliza-tion structure measurement of IF steel by Kicuchi pattern measurement of EBSD,J.Chinese Electron Microscopy Society,16,218(1997)(刘静,王仁卉和陈方玉等,用背散射电子菊池图测量无间隙钢的再结晶微观结构,电子显微学报,16,218(1997)) |
| [47] | M.Ueda,H.Y.Yasuda,Y.Umakoshi,Effect of grain bound-ary character on the martensitic transformation in Fe-32at.%Ni bicrystals.Acta materialia,49,3421(2001) |
| [48] | M.T.Perez-Parado,J.A.Hinrie,K.S.Vecchio,Microstruc-tural evolution in adiabatic shear band in Ta and Ta-W alloys,Acta materialia.2001,49,2905 |
| [49] | Q.Xue,J.F.Bingert,B.L.Henrie,G.T.Gray III,Mater.Sci.Eng.,EBSD characterization of dynamic shear bands regions shocked and as received stainless steels,473,279(2008) |
| [50] | F.Martinez,L.E.Murr,A.Ramirey,M.I.Lopez,S.M.Gaytan,Dynamic deformation and adiabatic shear microstructures associated with ballistic plug formation and fracture in Ti-6A1-4V targets,Mater.Sci.Eng.,A454_455,581(2007) |
| [51] | Y.B.Xu,H.J.Yang,M.A.Meyers,Dynamic recrystalliza-tion in the shear bands of Fe-Cr-Ni monocrystal:Elec-tron backscatter diffraction characterization,Scripta ma-terialia,58,691(2008) |
| [52] | H.J.Yang,J.H.Zhang,Y.B.Xu,M.A.Meyers,Microstruc-tural Characterization of the Shear bands in Fe-Cr-Ni Single Crystal by EBSD,J.Mater.Sci.Technol.,24,819(2008) |
| [53] | H.J.Yang,Y.B.Xu,M.A.Meyers,Analysis and Character-ization by EBSD of Microstructural Evolution in the Adi-abatic Shear Bands in Fe-Cr-Ni Alloys,J.Mater.Re-search.2009 in press |
| [54] | YANG Ping,EBSD technique,geometric crystallography and materials science,Proceeding of EBSD Technical and Scienfitic exchange meeting 11-14 Dec.Shanghua,China P1(杨平,电子背散射衍射技术、几何晶体学与材料科学,2008年全国电子背散射衍射(EBSD)技术学术交流研讨会会议论文集,2008年,12月11-14日,中国上海,P1) |
| [55] | J.H.Beatty,L.W.Meyer,U.S.Army,Materials technical Laboratory Report,MTL TR90-54,Septerber,1991 |
| [56] | U.Andrade,M.A.Meyers,A.H.Chokshi,Constitutive de-scription of work-hardening and shock hardening copper,Scripta materialia,30,933(1994) |
| [57] | J.A.Hines,K.S.Vecchio,Recrystallization kinetics within adiabatic shear bands,Acta materialia,45,635(1997) |
| [58] | V.F.Nwsterenko,M.A.Meyers,Self-organization in the initiation of adiabatic shear bands,Acta materialia,46,327(1997) |
| [59] | A.Mishra,M.Martin,N.N.Thadhani,B.K.Kad,E.A.Kenik,M.A.Meyers,High-strain-rate response of ultra-fine-grained copper,Acta materialia,56,2770(2008) |
| [60] | XU Yongbo,BAI Yilong,Shear localization,microstruc-ture evolution and fracture under high-strain rate,Ad-vances in Mechanics,4,496(2007)(徐永波,白以龙,动态载荷下剪切变形局部化、微结构演化与剪切断裂研究进展,力学进展,37,496(2007)) |
| [61] | Y.B.Xu,Y.L.Bai,M.A.Meyers,Deformation,phase trans-formation and recrystallization in the shear bands induced by high-strain rate loading in titanium and its alloys,J.Mater.Sci.Tech.,22,737-746(2006) |
| [62] | M.A.Meyers,J.C.LaSalvia,V.F.Nesterenko,In:McNelley,editor.Recrystallization and related phenomena.Mon-terey,1979,p.27 |
| [63] | B.B.Rath,H.Hu,In:H.Hu editor.Nature and Behavior of Grain Boundaies.Plenum Press,new York,1972 p.405 |
| [64] | LI Qian,Dynamic Behavior,Plastic deformation localiza-tion and Formation of Ultrafine Grain Structures in Metal-lic Materials,Post-Doctorial Research Report,Institute of Metal Research,Chinese Academy of Sciences,1999(李强,金属材料动态力学行为,塑性变形局部化与组织超细研究,博士后研究工作报告,中国科学院金属研究所,1999年2月) |
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