Micro Imprinting for Al Alloy Using Ni-W Electroformed Mold

Manabu Yasui; Satoru Kaneko; Masaharu Takahashi; Takashi Sano; Yasuo Hirabayashi; Takeshi Ozawa; Ryutaro Maeda

doi:10.20965/ijat.2015.p0674

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IJAT Vol.9 No.6 pp. 674-677

doi: 10.20965/ijat.2015.p0674

(2015)

Paper:

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Micro Imprinting for Al Alloy Using Ni-W Electroformed Mold

Manabu Yasui^, Satoru Kaneko^, Masaharu Takahashi^, Takashi Sano^, Yasuo Hirabayashi^, Takeshi Ozawa^*, and Ryutaro Maeda^**

^*Kanagawa Industrial Technology Center
705-1, Shimoimaizumi, Ebina, Japan

^**National Institute of Advanced Industrial Science and Technology (AIST), Japan

^***LEAP Co., Ltd, Japan

Received:

May 13, 2015

Accepted:

September 16, 2015

Published:

November 5, 2015

Keywords:

Al alloy, imprinting, Ni-W electroformed mold

Abstract

We demonstrate the heat-resistant property of a Ni-W electroformed mold (Ni-W mold) used as the micro imprinting die for an Al alloy. To enhance the transfer performance of the Ni-W mold to A2017, we carried out micro imprinting for A2017 at 600°C. However, entire Ni-W patterns stuck to A2017. It is considered that Al, a major component of A2017, and Ni, a major component of a Ni-W mold, formed an intermetallic compound at 600°C.

Cite this article as:

M. Yasui, S. Kaneko, M. Takahashi, T. Sano, Y. Hirabayashi, T. Ozawa, and R. Maeda, “Micro Imprinting for Al Alloy Using Ni-W Electroformed Mold,” Int. J. Automation Technol., Vol.9 No.6, pp. 674-677, 2015.

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References

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[5] T. Maeno, K. Mori, and K. Fujimoto, “Hot Gas Bulging of Aluminum Alloy Tube by Resistance Heating in Forming Machine,” Journal of the JSTP, Vol.50, pp. 424-428, May 2009.
[6] M. Yasui, S. Kaneko, M. Takahashi, H. Ito, M. Arai, Y. Hirabayashi, T. Ozawa, and R. Maeda, “Property Variation of Ni-W Electroformed Mold for Micro-Press Molding,” JJAP 52, 11NJ05, 2013.
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This article is published under a Creative Commons Attribution-NoDerivatives 4.0 Internationa License.

[1] [1] M. S. Mustafa, C. Peng, and B. Oelmann, “Stator-Free Low Angular Speed Sensor Based on a MEMS Gyroscope,” Instrumentation and Measurement, IEEE Transactions, Vol. 63, pp. 2591–2598, Sep. 2014.

[2] [2] H. Nishida, H. Tanaka, and T. Murata, “Thin Film Aluminum Alloy for Movable Electrical Circuit,” J. Japan Inst. Metals, Vol. 69, pp. 439-443, May 2005.

[3] [3] T. D. Phuc, M. Yoshino, A. Yamanaka, and T. Yamamoto, “Effects of Morphology of Nanodots on Localized Surface Plasmon Resonance Property,” Int. J. of Automation Technology, Vol.8, pp. 74-82, Jan. 2014

[4] [4] C. Langhammer, M. Schwind, B. Kasemo, and I. Zori’c, “Localized Surface Plasmon Resonances in Aluminum Nanodisks,” Nano Lett., 2008, Vol.8, pp. 1461–1471, Apr. 2008.

[5] [5] T. Maeno, K. Mori, and K. Fujimoto, “Hot Gas Bulging of Aluminum Alloy Tube by Resistance Heating in Forming Machine,” Journal of the JSTP, Vol.50, pp. 424-428, May 2009.

[6] [6] M. Yasui, S. Kaneko, M. Takahashi, H. Ito, M. Arai, Y. Hirabayashi, T. Ozawa, and R. Maeda, “Property Variation of Ni-W Electroformed Mold for Micro-Press Molding,” JJAP 52, 11NJ05, 2013.

[7] [7] H. Ikeda, S. Ioku, T. Fujita, K. Maenaka, and M. Maeda, “Study of Ni-W alloy as a MEMS Material,” T. IEE Japan, Vol.119-E, pp. 598-603, 1999.

[8] [8] Japan Institute of Light Metals, “Aluminium Hand Book,” p. 252, Asakurashoten, Tokyo, 1963 (in Japanese).

[9] [9] S. Ngasaki, M. Hirabayashi, “Nigengoukionjoutaizushu,” Agunegijutusenta, p. 37, 2004.

Micro Imprinting for Al Alloy Using Ni-W Electroformed Mold

Manabu Yasui*, Satoru Kaneko*, Masaharu Takahashi**, Takashi Sano***, Yasuo Hirabayashi*, Takeshi Ozawa*, and Ryutaro Maeda**

Manabu Yasui^, Satoru Kaneko^, Masaharu Takahashi^, Takashi Sano^, Yasuo Hirabayashi^, Takeshi Ozawa^*, and Ryutaro Maeda^**