WO3-CuO의 수소환원거동에 미치는 볼 밀링의 영향

김대건; 심우석; 김영도; Dae-Gun Kim; Woo-Seok Shim; Young-Do Kim

Korean Journal of Materials Research, Vol.13, No.9, 631-634, September, 2003

DOI10.3740/MRSK.2003.13.9.631 Export Citation

WO3-CuO의 수소환원거동에 미치는 볼 밀링의 영향

Effect of Ball-milling on Hydrogen-reduction Behavior of WO3-CuO

김대건, 심우석, 김영도 ^†

한양대학교 재료공학부

Dae-Gun Kim, Woo-Seok Shim, and Young-Do Kim^†

Division of Materials Science and Engineering, Hanyang University, Seoul 133-791, Korea

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To fabricate W-Cu nanocomposite powder, -CuO powder mixture was high-energetically ball-milled and subsequently hydrogen-reduced. The effect of ball-milling on the hydrogen-reduction behavior of-CuO was investigated with non-isothermal hygrometric analysis during hydrogen-reduction. Increasing the ball-milling time, the reduction peak temperatures of humidity curves were shifted to low temperature. It was considered that the reduction temperature should be decreased because the specific surface area of each oxide considerably increased with increasing the ball-milling time. In case of ball-milling for 0 h, and CuO were independently hydrogen-reduced and W particles were nucleated on the surface of Cu adjacent to W by CVT. However, in case of ball-milling for 50 h, the aggregates of about 200-300 nm were observed. W particles of size below 30-50 nm were homogeneously distributed with Cu in the aggregates.

[References]

German RM, Hens KF, Johnson JL, Int. J. Powder Metall., 30, 205 (1994)
Huppmann WJ, Riegger H, Acta Metall., 23, 965 (1975)
Bhalla AK, Williams JD, Powder Metall., 19, 31 (1976)
Birringer R, Mater. Sci. Eng. A, 117, 33 (1989)
Shim WS, Kim DG, Sekino T, Noh JW, Kim YD, Moon IH, J. Ceramic Processing Research, 3, 109 (2002)
Basu AK, Sale FR, J. Mat. Sci., 9, 46 (1990)
Walkden P, Albiston JN, Sale FR, Powder Metall., 28, 36 (1985)
Kim TJ, Yu JH, Lee JS, Nanostruc. Mater., 9, 213 (1997)
Lassner E, Schubert WD, Tungsten, Kluwer Academic/Plenum Press, NY, (1993) (1993)
Kim DG, Oh ST, Jeon H, Lee CH, Kim YD, J. Alloys & Compund, 354, 239 (2003)
Kim DG, Lee KW, Suk MJ, Kim YD, Korean J. Mater. Res., 13(3), 169 (2003)

[Related Articles]

[1] German RM, Hens KF, Johnson JL, Int. J. Powder Metall., 30, 205 (1994)

[2] Huppmann WJ, Riegger H, Acta Metall., 23, 965 (1975)

[3] Bhalla AK, Williams JD, Powder Metall., 19, 31 (1976)

[4] Birringer R, Mater. Sci. Eng. A, 117, 33 (1989)

[5] Shim WS, Kim DG, Sekino T, Noh JW, Kim YD, Moon IH, J. Ceramic Processing Research, 3, 109 (2002)

[6] Basu AK, Sale FR, J. Mat. Sci., 9, 46 (1990)

[7] Walkden P, Albiston JN, Sale FR, Powder Metall., 28, 36 (1985)

[8] Kim TJ, Yu JH, Lee JS, Nanostruc. Mater., 9, 213 (1997)

[9] Lassner E, Schubert WD, Tungsten, Kluwer Academic/Plenum Press, NY, (1993) (1993)

[10] Kim DG, Oh ST, Jeon H, Lee CH, Kim YD, J. Alloys & Compund, 354, 239 (2003)

[11] Kim DG, Lee KW, Suk MJ, Kim YD, Korean J. Mater. Res., 13(3), 169 (2003)