OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

材料工程 2006

ECAP变形与材料组织性能控制的研究

, PP. 64-68

杜忠泽,冯广海,符寒光,王经涛,赵西成

Keywords: 等径弯曲通道变形,超细晶材料,显微组织

Full-Text Cite this paper Add to My Lib

Abstract:

等径弯曲通道变形(ECAP)是制备超细晶材料的新工艺,其基本原理是将试样放入横截面形状完全相同、并成一定角度的弯曲通道中,试样在压力作用下通过通道时,在通道弯曲处产生一定量均匀的纯剪切变形,最终获得很高的变形量,使材料组织发生明显细化。详细介绍了ECAP变形工艺路线对晶粒细化的影响,以及ECAP变形制备超细晶材料的显微组织特征及其力学性能。

References

[1]	SEGAL V M,REZNIKOV V I,DROBYSHEVSKII A E,et al.Plastic working of metals by simple shear[J].Russian Metallurgy,1981,(1):99-105.
[2]	VALIEV R Z,KRASILNIKOV N A,TSENEV N K.Plastic deformation of alloys with submicron-grained structure[J].Materials Science & Engineering A,1991,137,35-40.
[3]	VALIEV R Z,KORZNIKOV A V,MULYUKOV R R.Structure and properties of ultrafine-grained materials produced by severe plastic deformation[J].Materials Science & Engineering A,1993,168(2):141-148.
[4]	ZHILYAEV A P,GUBICZA J,SURINACH,et al.Calorimetric and X-ray measurements in ultrafine-grained nickel[J] Materials Science Forum,2003,426-432(5):4507-4512.
[5]	KORCHEF A,NJAH N,MASMOUDI J,et al.Evolution of the mechanical properties of aluminum containing Al8Fe2Si precipitates during equal channel angular pressing[J].Advanced Engineering Materials,2004,6(8):639-643.
[6]	WANG J T,CAO X F,DU Z Z,et al.The effect of equal channel angular pressing routes on structure evolution in a commercial low carbon steel[A].Materials Processing and Manufacturing Division.Ultrafine Grained Materials Ⅲ[C].Charlotte,NC,USA:TMS,2004.345-350.
[7]	KIM S M,KIM J,SHIN D H,et al.Microstructure development and segment formation during ECA pressing of Ti-6Al-4V alloy[J].Scripta Materialia,2004,50(7):927-930.
[8]	GHOLINIA A,PRANGNELL P B,MARKUSHEV M V.Effect of strain path on the development of deformation structures in severely deformed aluminium alloys processed by ECAE[J].Acta Materialia,2000,48(5):1115-1130.
[9]	ZHERNAKOV V S,LATYSH V V,STOLYAROV V V,et al.The developing of nanostructured SPD Ti for structural use[J].Scripta Materialia,2001,44(8-9):1771-1774.
[10]	CABIBBO M,EVANGELISTA E,LATINI V,et al.Development of nano-structured 1200 and 3103 aluminum alloys by equal channel angular pressing[J].Materials Science Forum,2003,426-432(3):2673-2680.
[11]	NAKASHIMA K,HORITA Z,NEMOTO M,et al.Influence of channel angle on the development of ultrafine grains in equalchannel angular pressing[J].Acta Materialia,1998,46 (5):1589-1599.
[12]	NAKASHIMA K,HORITA Z,NEMOTO M,et al.Development of a multi-pass facility for equal-channel angular pressing to high total strains[J].Materials Science and Engineering A,2000,281(1):82-87.
[13]	IWAHASHI Y,WANG J,HORITA Z,et al.Principle of equalchannel angular pressing for the processing of ultra-fine grained materials[J].Scripta Materialia,1996,35(2):143-146.
[14]	WU Y,BAKER I.Experimental study of equal channel angular extrusion[J].Scripta Materialia,1997,37(4):437-442.
[15]	DELO D P,SEMITATIN S L.Finite-element modeling of nonisothermal equal-channel angular extrusion[J].Metallurgical and Materials Transactions A,1999,30(5):1391-1402.
[16]	堀田善治,王経涛,古川稔,et al.サブミクロソ粒径をもつAl-3%Mg合金-その製造と組織[J].日本金属学会会報,1993,32(12):898-900.
[17]	SEGAL V M.Materials processing by simple shear[J].Materials Science & Engineering A,1995,197(2):157-164.
[18]	FURUKAWA M,IWAHASHI Y,HORITA Z,et al.The shearing characteristics associated with equal-channel angular pressing[J].Materials Science & Engineering A,1998,257(2):328-332.
[19]	IWAHASHI Y,HORITA Z,NEMOTO M,et al.Process of grain refinement in equal-channel angular pressing[J].Acta Materialia,1998,46(9):3317-3331.
[20]	OHISHI K,HORITA Z,FURUKAWA M,et al.Optimizing the rotation conditions for grain refinement in equal-channel angular pressing[J].Metallurgical and Materials Transactions A,1998,29(7):2011-2013.
[21]	LANGDON T G,FURUKAWA M,NEMOTO,et al.Using equal-channel angular pressing for refining grain size[J].JOM,2000,52(4):30-33.
[22]	SEGAL V M,GOFORTH R E,HARTWIG K T.Application of equal channel angular extrusion to produce extraordinary properties in advanced metallic materials[A].Proceedings of the 1st International Conference on Processing Materials for Properties[C].Honolulu,HI,USA:Minerals,Metals & Materials Soc,1993.971-974.
[23]	VALIEV R Z,ISLAMGALIEV R K,ALEXANDROV I V.Bulk nanostructured materials from severe plastic deformation[J].Progress in Materials Science,2000,45 (2):103-189.
[24]	FURUKAWA M,HORITA Z,HONO K.Microstructure of two-phase Al-1.7 at% Cu alloy deformed by equal-channel angular pressing[J].Acta Materialia,2001,49(1):21-29.
[25]	SHIN D H,KIM B C,PARK K T,et al.Microstructural changes in equal channel angular pressed low carbon steel by static annealing[J].Acta Materialia,2000,48(12):3245-3252.
[26]	KIM W J,KIM J K,CHOO W Y,et al.Large strain hardening in Ti-V carbon steel processed by equal channel angular pressing[J].Materials Letters,2001,51(2):177-182.
[27]	PARK K T,KIM Y S,LEE J G,et al.Thermal stability and mechanical properties of ultrafine grained low carbon steel[J].Materials Science and Engineering A,2000,293 (1):165-172.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133