Characteristics of FeCuAl powder compacts formed through uniaxial die compaction route
Aluminum alloys; Bending strength; Compaction; Copper alloys; Electric conductivity; Iron alloys; Microstructure; Scanning electron microscopy; Sintering; Ternary alloys; Elemental powders; Forming temperature; Homogeneous distribution; Interconnected pores; Microstructure evaluations; Sintering tim...
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2023
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my.uniten.dspace-234132023-05-29T14:40:17Z Characteristics of FeCuAl powder compacts formed through uniaxial die compaction route Rahman M.M. Ismail M.A. Rahman H.Y. 55328831100 57214859008 7101793656 Aluminum alloys; Bending strength; Compaction; Copper alloys; Electric conductivity; Iron alloys; Microstructure; Scanning electron microscopy; Sintering; Ternary alloys; Elemental powders; Forming temperature; Homogeneous distribution; Interconnected pores; Microstructure evaluations; Sintering time; Uniaxial die compaction; Volumetric expansion; Powders This paper presents the development of FeCuAl powder compacts through uniaxial die compaction process. Iron powder ASC 100.29 was mechanically mixed with other elemental powders, i.e., copper (Cu), and aluminum (Al) for 30 minutes at a rotation of 30 rpm. The feedstock was subsequently shaped at three different temperatures, i.e., 30�C, 150�C, and 200�C through simultaneous upward and downward axial loading of 325 MPa. The as-pressed samples termed as green compacts were then sintered in argon gas fired furnace at 800�C for three different holding times, i.e., 30, 60, and 90 min at a rate of 10�C/min. The sintered samples were characterized for their relative density, electrical resistivity, and bending strength. The microstructure of the sintered samples was also evaluated through scanning electron microscopy (SEM). The results revealed that the sample formed at 150�C and sintered for 30 min obtained the best final characteristics, i.e., higher relative density, lower volumetric expansion and electrical resistivity, and higher bending strength. Microstructure evaluation also revealed that the sample formed at 150�C and sintered for 30 min obtained more homogeneous distribution of grains and less interconnected pores compared to the other samples. � 2017 Trans Tech Publications, Switzerland. Final 2023-05-29T06:40:17Z 2023-05-29T06:40:17Z 2017 Conference Paper 10.4028/www.scientific.net/SSP.264.103 2-s2.0-85030162119 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85030162119&doi=10.4028%2fwww.scientific.net%2fSSP.264.103&partnerID=40&md5=5b2fb195d2e955e30fdcdb4d1d1fc230 https://irepository.uniten.edu.my/handle/123456789/23413 264 SSP 103 106 Trans Tech Publications Ltd Scopus |
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Aluminum alloys; Bending strength; Compaction; Copper alloys; Electric conductivity; Iron alloys; Microstructure; Scanning electron microscopy; Sintering; Ternary alloys; Elemental powders; Forming temperature; Homogeneous distribution; Interconnected pores; Microstructure evaluations; Sintering time; Uniaxial die compaction; Volumetric expansion; Powders |
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55328831100 Rahman M.M. Ismail M.A. Rahman H.Y. |
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Rahman M.M. Ismail M.A. Rahman H.Y. |
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Rahman M.M. Ismail M.A. Rahman H.Y. Characteristics of FeCuAl powder compacts formed through uniaxial die compaction route |
author_sort |
Rahman M.M. |
title |
Characteristics of FeCuAl powder compacts formed through uniaxial die compaction route |
title_short |
Characteristics of FeCuAl powder compacts formed through uniaxial die compaction route |
title_full |
Characteristics of FeCuAl powder compacts formed through uniaxial die compaction route |
title_fullStr |
Characteristics of FeCuAl powder compacts formed through uniaxial die compaction route |
title_full_unstemmed |
Characteristics of FeCuAl powder compacts formed through uniaxial die compaction route |
title_sort |
characteristics of fecual powder compacts formed through uniaxial die compaction route |
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Trans Tech Publications Ltd |
publishDate |
2023 |
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1806427456758874112 |
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13.214268 |