摘要:
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为找出微成形过程中材料塑性与几何尺寸间的关系,在常温下对具有不同晶粒尺寸和几何尺寸的铜试件进行了拉伸实验。结果表明,在试件直径不变条件下,随着晶粒尺寸的增大,材料的延伸率逐渐降低;在晶粒尺寸不变条件下,随着试件直径的减小,材料延伸率在逐渐降低;材料的延伸率与试件晶粒个数有关;随着晶粒尺寸的增大或试件直径的减小,材料延伸率的波动性在逐渐增大。为微成形工艺设计、模具设计提供了必要的信息和基础数据。
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In order to find relationship between material plasticity and geometrical dimensions in microforming,at room temperature,tensile tests of copper specimens with different geometrical dimensions and grain sizes are performed.Results show that under the condition of constant specimen diameter,with the increase of grain size,elongation of material is gradually decreased;Under the condition of constant grain size,with the decrease of specimens diameters,elongation of material is gradually decreased;Elongation is related to quantity of grain in specimens;With the increase of grain size or the decrease of specimens diameters,scatter of specimen elongation is gradually increased.Necessary information and fundamental data are provided by this study for the design of process and die in microforming.
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参考文献:
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[1]Geiger M,Kleiner M,Eckstein R,et al.Microforming[J].Annals of the CIRP,2001,50(2):445 462.
[2]Tiesler N,Engel U.Microforming-effects of miniaturization[J].Metal Forming,2000,355 360.
[3]Engel U,Eckstein R.Microforming-from basic research to itsrealization[J].Journal of Materials Processing Technology,2002,125 126:35 44.
[4]Tiesler N,Engel U,Geiger M.Basic research on cold forgingof microparts[C].Advanced Technology of Plasticity,Ja-pan,2002:379 384.
[5]Geiger M,Eckstein R.Microforming[C].Advanced Tech-nology of Plasticity,Japan,2002:327 338.
[6]Raulea L V,Govaert L E,Baaijens F P T.Grain and speci-men size effects in processing metal sheets[C].AdvancedTechnology of Plasticity,Japan,1999:939 944.
[7]Geiger M,Engel U,Vollertsen F.Metal forming of microparts for electronics[J].Production Engineering,1994,2(1):15 18.
[8]Geiger M,Engel U.Microforming-a challenge to the plasticity re-search community-addressed to the 40th anniversary of the JSTP[C].Journal of the JSTP,2002,(43)494:171 172.
[9]Geiger M,Vollertsen F,Kals R.Fundamentals on the manu-facturing of sheet metal microparts[C].Annals of theCIRP,1996,45(1):277 282.
[10]Engel Ulf,Egerer Emil.Basic research on cold and warmforging of microparts[J].Key Engineering Materials,2003,233(1):449 456.
[11]Picart P,Michel J F.Effects of size and texture on the con-stitutive behaviour for very small components in sheet metalforming[C].Advanced Technology of Plasticity,Vol.II,Proceedings of the 6th ICTP,1999,19-24:895 900.
[12]Kocańda A,Prejs T.The effect of miniaturization on the finalgeometry of the bent products[C].Metal Forming 2000,Proc.Of the 8thInternational Conference on Metal Forming,Rotterdam,A.A.Balkema,2000,375 78.
[13]Richelsen A B,Giessen E van der.Size effects in sheet draw-ing[C].9th International Conference on Sheet Metal,Leu-ven,2001:263 270.
[14]Meβner A.Cold metal forming of microparts-material behav-ior,Friction,Process Design.Doctorial Dissertation[M].Friedrich-Alexander University Erlangen-Nuremberg,1997.
[15]Kals T A,Eckstein R.Miniaturization in sheet metal working[J].Journal of Materials Processing Technology,2000,103(1):95 101.
[16]GB/T 228-2002,金属材料室温拉伸试验方法[S].
[17]汪大年.金属塑性成形原理[M].北京:机械工业出版社,1986.
[18](苏)波卢欣,等著,黄克琴,等译.塑性变形的物理基础[M].北京:冶金工业出版社,1989.
[19]杨觉先.金属塑性变形物理基础[M].北京:冶金工业出版社,1988.
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