Manufacturing process of particle intermetallic compound reinforced Al base composites by infiltration-reaction method

A new process is proposed to fabricate an aluminum alloy matrix composite dispersed with intermetallic compound particles by using the reaction between porous nickel and molten aluminum alloy. The intermetallic compound particles reinforced aluminum alloy matrix composite was manufactured with the i...

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Autores principales: Yongbum CHOI, Zhefeng XU, Kenjiro SUGIO, Kazuhiro MATSUGI, Gen SASAKI
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Lenguaje:EN
Publicado: The Japan Society of Mechanical Engineers 2016
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Acceso en línea:https://doaj.org/article/28c4d2f2c61e4730b9a1e44cfe3de020
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spelling oai:doaj.org-article:28c4d2f2c61e4730b9a1e44cfe3de0202021-11-26T06:40:16ZManufacturing process of particle intermetallic compound reinforced Al base composites by infiltration-reaction method2187-974510.1299/mej.15-00492https://doaj.org/article/28c4d2f2c61e4730b9a1e44cfe3de0202016-02-01T00:00:00Zhttps://www.jstage.jst.go.jp/article/mej/3/2/3_15-00492/_pdf/-char/enhttps://doaj.org/toc/2187-9745A new process is proposed to fabricate an aluminum alloy matrix composite dispersed with intermetallic compound particles by using the reaction between porous nickel and molten aluminum alloy. The intermetallic compound particles reinforced aluminum alloy matrix composite was manufactured with the infiltration-reaction method. Four different specific surface areas of porous nickel were used to fabricate the composites and then the porosity inside composites were investigated. Porous nickel reacted with molten aluminum alloy at 973 K, and the intermetallic compound, Al3Ni was generated on the surface of the porous nickel. The generated intermetallic compound Al3Ni, was delaminated according to the difference of thermal expiation coefficient with nickel. And the intermetallic compounds moves in the direction of aluminum matrix. The area fraction of the intermetallic compounds increased with the increasing specific surface area of porous nickel. In addition, the hardness of composite increased by the increasing specific surface area of porous nickel.Yongbum CHOIZhefeng XUKenjiro SUGIOKazuhiro MATSUGIGen SASAKIThe Japan Society of Mechanical Engineersarticlemetal-matrix compositesintermetallic compoundpressure infiltrationreactionmechanical propertiesMechanical engineering and machineryTJ1-1570ENMechanical Engineering Journal, Vol 3, Iss 2, Pp 15-00492-15-00492 (2016)
institution DOAJ
collection DOAJ
language EN
topic metal-matrix composites
intermetallic compound
pressure infiltration
reaction
mechanical properties
Mechanical engineering and machinery
TJ1-1570
spellingShingle metal-matrix composites
intermetallic compound
pressure infiltration
reaction
mechanical properties
Mechanical engineering and machinery
TJ1-1570
Yongbum CHOI
Zhefeng XU
Kenjiro SUGIO
Kazuhiro MATSUGI
Gen SASAKI
Manufacturing process of particle intermetallic compound reinforced Al base composites by infiltration-reaction method
description A new process is proposed to fabricate an aluminum alloy matrix composite dispersed with intermetallic compound particles by using the reaction between porous nickel and molten aluminum alloy. The intermetallic compound particles reinforced aluminum alloy matrix composite was manufactured with the infiltration-reaction method. Four different specific surface areas of porous nickel were used to fabricate the composites and then the porosity inside composites were investigated. Porous nickel reacted with molten aluminum alloy at 973 K, and the intermetallic compound, Al3Ni was generated on the surface of the porous nickel. The generated intermetallic compound Al3Ni, was delaminated according to the difference of thermal expiation coefficient with nickel. And the intermetallic compounds moves in the direction of aluminum matrix. The area fraction of the intermetallic compounds increased with the increasing specific surface area of porous nickel. In addition, the hardness of composite increased by the increasing specific surface area of porous nickel.
format article
author Yongbum CHOI
Zhefeng XU
Kenjiro SUGIO
Kazuhiro MATSUGI
Gen SASAKI
author_facet Yongbum CHOI
Zhefeng XU
Kenjiro SUGIO
Kazuhiro MATSUGI
Gen SASAKI
author_sort Yongbum CHOI
title Manufacturing process of particle intermetallic compound reinforced Al base composites by infiltration-reaction method
title_short Manufacturing process of particle intermetallic compound reinforced Al base composites by infiltration-reaction method
title_full Manufacturing process of particle intermetallic compound reinforced Al base composites by infiltration-reaction method
title_fullStr Manufacturing process of particle intermetallic compound reinforced Al base composites by infiltration-reaction method
title_full_unstemmed Manufacturing process of particle intermetallic compound reinforced Al base composites by infiltration-reaction method
title_sort manufacturing process of particle intermetallic compound reinforced al base composites by infiltration-reaction method
publisher The Japan Society of Mechanical Engineers
publishDate 2016
url https://doaj.org/article/28c4d2f2c61e4730b9a1e44cfe3de020
work_keys_str_mv AT yongbumchoi manufacturingprocessofparticleintermetalliccompoundreinforcedalbasecompositesbyinfiltrationreactionmethod
AT zhefengxu manufacturingprocessofparticleintermetalliccompoundreinforcedalbasecompositesbyinfiltrationreactionmethod
AT kenjirosugio manufacturingprocessofparticleintermetalliccompoundreinforcedalbasecompositesbyinfiltrationreactionmethod
AT kazuhiromatsugi manufacturingprocessofparticleintermetalliccompoundreinforcedalbasecompositesbyinfiltrationreactionmethod
AT gensasaki manufacturingprocessofparticleintermetalliccompoundreinforcedalbasecompositesbyinfiltrationreactionmethod
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