Sintering Behavior of the Powder Injection Molded Nanocrystalline Fe-50wt%Ni

H.Y. Nam; S.K. Kwon; Young Soo Kang; Jai Sung Lee

doi:10.4028/www.scientific.net/MSF.449-452.1141

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HomeMaterials Science ForumMaterials Science Forum Vols. 449-452Sintering Behavior of the Powder Injection Molded...

Sintering Behavior of the Powder Injection Molded Nanocrystalline Fe-50wt%Ni

Abstract:

Sintering process of powder injection molded (PIMed) Fe-50wt%Ni nanoalloyed powder was investigated in association with microstructure development and residual impurity effect. Compared to conventional powder metallurgical (PM) processed Fe-Ni nanoalloy powder, the PIM compact showed a homogeneous and uniform densification behavior. This is owing to more homogeneous particle distribution in the PIM resulting from preparation of feedstock which was fabricated by mixing of nano powder with thermoplastic binder. Residual impurities originating from the binder material did not have any apparent influences on sintering behavior. Conclusively, Fe-50wt%Ni nanoalloy powder is effectively applicable to the PIM parts.

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Periodical:

Materials Science Forum (Volumes 449-452)

Pages:

1141-1144

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.449-452.1141

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Online since:

March 2004

Authors:

H.Y. Nam, S.K. Kwon, Young Soo Kang, Jai Sung Lee

Keywords:

Microstructure, Nanocrystalline Fe-50wt%Ni, Powder Injection Molding (PIM), Residual Impurities

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References

[1] A.C. Goncalves: J. Mater. Processing Technol. Vol. 118 (2001), p.193.

Google Scholar

[2] B. Huang, J. Fan, S. Liang and X. Qu: J. Mater. Processing Technol. Vol. 137 (2003), p.177.

Google Scholar

[3] T. Hartwig, G. Velti, F. Petzoldt, H. Kunze, R. Scholl, and B. Kieback: J. Ceram. Soc. Vol. 18 (1998), p.1211.

Google Scholar

[4] Th. Barriere, B. Liu and J.C. Gelin: Metal Powder Report May (2002), p.30.

Google Scholar

[5] H. Zhang and R. M. German: Intern. J. Powder Metall. Vol. 38 No. 1 (2002), p.51 Journal Title and Volume Number (to be inserted by the publisher).

Google Scholar

[6] E.S. Yoon, J.H. Yu and J.S. Lee: J. Japan Soc. Powder and Powder Metall. Vol. 46 No. 8 (1999), p.898.

Google Scholar

[7] E.S. Yoon, J.H. Yu and J.S. Lee: J. Korean Powder Met. Ins. Vol. 5 No. 4 (1998), p.258.

Google Scholar

[8] P. Knorr, J.G. Nam and J.S. Lee: Metall. and Mater. Trans. A Vol. A31 (2002), p.503.

Google Scholar