MICROSTRUCTURAL EVOLUTION OF COLUMNAR GRAIN Al DURING COLD ROLLING I. Marcoscopic Subdivision

Acta Metall Sin

2004, Vol. 40

Issue (7): 699-708 DOI:

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MICROSTRUCTURAL EVOLUTION OF COLUMNAR GRAIN Al DURING COLD ROLLING I. Marcoscopic Subdivision

WU Guilin; LIU Wei; A. Godfrey; LIU Qing

Department of Materials Science and Engineering; Tsinghua University; Beijing 100084

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WU Guilin; LIU Wei; A. Godfrey; LIU Qing. MICROSTRUCTURAL EVOLUTION OF COLUMNAR GRAIN Al DURING COLD ROLLING I. Marcoscopic Subdivision. Acta Metall Sin, 2004, 40(7): 699-708 .

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Abstract Columnar grain Al samples with 001uv0 orientations were cold rolled to reductions of 10%, 30% and 50%, respectively. The macroscopic subdivision of grains with different orientations was characterized in detail by using EBSP technique. It is found that the macroscopic subdivision patterns of different oriented grains are different. A model based on dislocation slip was used to analyze the observed macroscopic subdivision patterns.

Key words: columnar grain Al cold rolling EBSP

Received: 24 July 2003

ZTFLH:

TG335.12

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	WU Guilin
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https://www.ams.org.cn/EN/ OR https://www.ams.org.cn/EN/Y2004/V40/I7/699

[1] Hansen N. Metall Mater Trans A, 2001; 32A: 2917
[2] Hansen N, Juul Jensen D. Proc R Soc Land A, 1999;357:.1447
[3] Wert J, Liu Q, Hansen N. Acta Mater, 1995; 43: 4153
[4] Liu Q, Hansen N. Proc R Soc Land A, 1998; 454: 2555
[5] Liu Q, Wert J, Hansen N. Acta Mater, 2000; 48: 4267
[6] Wert J. Acta Mater, 2002; 50: 3125
[7] Liu Q, Maurice C, Driver D, Hansen N. Metall MaterTrans, 1998; 29A: 2333
[8] Basson F, Driver J H. Acta Mater, 2000; 48: 2101
[9] Li Z J, Godfrey A, Liu Q. Scr Mater, 2001; 45: 847
[10] Kuhlmann-Wilsdorf D, Hansen N. Scr Metall, 1991; 25:1557
[11] Bay B, Hansen N, Hughes D A, Kuhlmann-Wilsdorf D.Acta Metall Mater, 1992; 40: 205
[12] Hughes D A, Hansen N. Metall Trans, 1993; 24A: 2021
[13] Liu Q, Juul Jensen D, Hansen N. Acta Mater, 1997; 46:5819
[14] Liu Q. J Appl Cryst, 1994; 27: 755
[15] Liu Q. Ultramicroscopy, 1995; 60: 81
[16] Delannay L, Mishin O V, Juul Jensen D, Van Houtte P.Acta Mater, 2001; 49: 2441
[17] Hurley P J, Humphrey F J. Acta Mater, 2003; 51: 1087
[18] Wert J, Liu Q, Hansen N. Acta Mater, 1997; 45: 2565
[19] Krieger Lassen N C, Juul Jensen D, Conradsen K. ActaCrystall, 1994; A50: 741
[20] Tucker G E G. Acta Metall, 1964; 12: 1093V

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