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Rare Metals

Erschienen in:

01.02.2013

Mechanism of size effects in microcylindrical compression of pure copper considering grain orientation distribution

verfasst von: Chuan-Jie Wang, Chun-Ju Wang, Bin Guo, De-Bin Shan, Yan-Yan Chang

Erschienen in: Rare Metals | Ausgabe 1/2013

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Abstract

In microscale deformation, the magnitudes of specimen and grain sizes are usually identical, and size-dependent phenomena of deformation behavior occur, namely, size effects. In this study, size effects in microcylindrical compression were investigated experimentally. It was found that, with the increase of grain size and decrease of specimen size, flow stress decreases and inhomogeneous material flow increases. These size effects tend to be more distinct with miniaturization. Thereafter, a modified model considering orientation distribution of surface grains and continuity between surface grains and inner grains is developed to model size effects in microforming. Through finite element simulation, the effects of specimen size, grain size, and orientation of surface grains on the flow stress and inhomogeneous deformation were analyzed. There is a good agreement between experimental and simulation results.

Graphical abstract

The deformation behavior in micro compression of pure copper has been investigated by a modified surface model considering orientation distribution of surface grains and continuity between surface grains and inner grains.

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[1]

Geiger M, Kleiner M, Eckstein R. Microforming. Ann CIRP. 2001;50(2):445.CrossRef

[2]

Engel U, Eckstein R. Microforming-from basic research to its realization. J Mater Process Tech. 2002;125–126(9):35.CrossRef

[3]

Qin Y, Brockett A, Ma Y, Razali A, Zhao J, Harrison C, Pan W, Dai X, Loziak D. Micromanufacturing research, technology outcomes and development issues. Int J Adv Manuf Tech. 2010;47(9–12):821.CrossRef

[4]

Geiger M, Messner A, Engel U. Production of microparts—size effects in bulk metal forming, similarity theory. Prod Eng. 1997;4(1):55.

[5]

Geiger M, Engel U, Vollersten F, Kals R, Messner A. Metal forming of microparts for electronics. Prod Eng. 1994;2(1):15.CrossRef

[6]

Chen FK, Tsai JW. A study of size effect in micro-forming with micro-hardness tests. J Mater Proc Techn. 2006;177(1):146.CrossRef

[7]

Chan WL, Fu MW, Lu J, Liu JG. Modeling of grain size effect on micro deformation behavior in micro-forming of pure copper. Mater Sci Eng A. 2010;527(24):6638.CrossRef

[8]

Chan WL, Fu MW, Lu J. The size effect on micro deformation behaviour in micro-scale plastic deformation. Mater Des. 2011;32(1):198.CrossRef

[9]

Chan WL, Fu MW, Yang B. Experimental studies of the size effect affected microscale plastic deformation in micro upsetting process. Mater Sci Eng A. 2012;534:374.CrossRef

[10]

Chen XX, Ngan AHW. Specimen size and grain size effects on tensile strength of Ag micro-wires. Scripta Mater. 2011;64(8):717.CrossRef

[11]

Chen XX, Ngan AHW. Tensile deformation of silver micro-wires of small thickness-to-grain-size ratios. Mater Sci Eng A. 2012;539:74.CrossRef

[12]

Geißdörfer S, Engel U, Geiger M. FE-simulation of microforming processes applying a mesoscopic model. Int J Mach Tool Manu. 2006;46(11):1222.CrossRef

[13]

Geiger M, Geißdörfer S, Engel U. Mesoscopic model: advanced simulation of microforming processes. Prod Eng Res Devel. 2007;1(1):79.CrossRef

[14]

Shen Y, Yu HP, Ruan XY. Discussion and prediction on decreasing flow stress scale effect. Trans Nonferr Metal Soc. 2006;16(1):132.CrossRef

[15]

Kim GY, Ni J, Koç M. Modeling of the size effects on the behavior of metals in microscale deformation. J Manuf Sci Eng. 2007;129(3):470.CrossRef

[16]

Lai XM, Peng LF, Hua P, Lan SH, Ni J. Material behavior modelling in micro/meso-scale forming process. Com Mater Sci. 2008;43(4):1003.CrossRef

[17]

Mughrabi H. Investigations of plastically deformed copper single crystals in the stress-applied state. I. A study of the dislocation behaviour in the surface region and in the bulk. Phys Status Solidi B. 1970;39(1):317.CrossRef

[18]

Keller C, Hug E, Retoux R, Feaugas X. TEM study of dislocation patterns in near-surface and core regions of deformed nickel polycrystals with few grains across the cross section. Mech Mater. 2010;42(1):44.CrossRef

[19]

Diehl J. Zugverformung von Kupfer-Einkristallen 1. Z Metallkd. 1956;47(5):331.

Titel: Mechanism of size effects in microcylindrical compression of pure copper considering grain orientation distribution
verfasst von: Chuan-Jie Wang
Chun-Ju Wang
Bin Guo
De-Bin Shan
Yan-Yan Chang
Publikationsdatum: 01.02.2013
Verlag: Nonferrous Metals Society of China
Erschienen in: Rare Metals / Ausgabe 1/2013
Print ISSN: 1001-0521
Elektronische ISSN: 1867-7185
DOI: https://doi.org/10.1007/s12598-013-0012-6

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