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Pseudo-HIP Combustion Synthesis of FeAl-TiB2 Composites

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Mater. Trans. 49(5) 1168.pdf411.27 kBPDFView/Open
Please use this identifier to cite or link to this item:http://hdl.handle.net/2115/75707

Title: Pseudo-HIP Combustion Synthesis of FeAl-TiB2 Composites
Authors: Obara, Yuki Browse this author
Kudoh, Masayuki Browse this author
Matsuura, Kiyotaka Browse this author →KAKEN DB
Keywords: ceramic
composite
hot isostatic pressing
intermetallic compound
powder metallurgy
self-propagating
high-temerature synthesis
Issue Date: 1-May-2008
Publisher: Japan Foundary Engineering Society
Journal Title: MATERIALS TRANSACTIONS
Volume: 49
Issue: 5
Start Page: 1168
End Page: 1174
Publisher DOI: 10.2320/matertrans.F-MRA2008804
Abstract: FeAl-TiB2 composites have been produced from iron, aluminum, titanium and boron powders using the pseudo-HIP combustion synthesis process. The effects of TiB2 volume fraction and preheating conditions such as time, temperature and pressure on the TiB2 particle size and porosity in the synthesized composites were investigated. When the mixtures of the elemental powders were heated, sudden and rapid temperature rise was always observed at temperatures near the melting point of aluminum, and the powder mixtures were melted. X-ray diffraction analyses revealed that the reaction products consisted of only FeAl and TiB2. Based on metallographic investigations and electron probe microanalyses, it was found that fine TiB2 particle dispersed FeAl-based composites were synthesized by the above-mentioned exothermic reaction, although the composites included a lot of pores. The use of pseudo-isostatic pressure during the exothermic reaction brought about dramatic reduction in porosity. When the volume fraction of the TiB2 particles increased, their average diameter also increased. The increase in volume fraction of the TiB2 particles brought about the increase in the Vickers hardness and the volume fraction of pores. The volume fraction of pores was markedly reduced by preheating the powder mixture in vacuum. The preheating also reduced the TiB2 size. The application of pressure during the preheating brought about most significant reduction in TiB2 size and the effect of preheating temperature was more significant than that of preheating time.
Type: article
URI: http://hdl.handle.net/2115/75707
Appears in Collections:工学院・工学研究院 (Graduate School of Engineering / Faculty of Engineering) > 雑誌発表論文等 (Peer-reviewed Journal Articles, etc)

Submitter: 松浦 清隆

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