Investigation on the effect of lubrication and forming parameters to the green compact generated from iron powder through warm forming route
In order to generate green compacts of iron ASC 100.29 powder at above ambient temperature and below its recrystallization temperature, a warm compaction rig is designed and fabricated which can be operated at various temperature and load. The aim of this paper is to present the outcomes of an inves...
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my.uniten.dspace-305532023-12-29T15:49:22Z Investigation on the effect of lubrication and forming parameters to the green compact generated from iron powder through warm forming route Rahman M.M. Nor S.S.M. Rahman H.Y. 55328831100 23492827600 7101793656 C. Powder metallurgy E. Mechanical G. Scanning Electron Microscopy Aluminum powder metallurgy Density (specific gravity) Electric conductivity Hardness testing Iron powder Iron powder metallurgy Lubrication Mechanical properties Metallurgy Microstructure Powders Scanning Scanning electron microscopy Steel powder metallurgy Zinc Ambient temperatures C. Powder metallurgy Compaction load Compaction mechanisms Density Measurements E. Mechanical Electrical conductivity Forming parameters Forming temperature G. Scanning electron microscopy Green compacts Hardness test Lubricant content Microstructure and mechanical properties Mixing time Recrystallization temperatures SEM Warm compaction Warm forming Weight percent Zinc stearate Compaction In order to generate green compacts of iron ASC 100.29 powder at above ambient temperature and below its recrystallization temperature, a warm compaction rig is designed and fabricated which can be operated at various temperature and load. The aim of this paper is to present the outcomes of an investigation on the effect of lubrication and forming parameters, i.e., load and temperature to the green compacts generated through warm compaction route. The feedstock was prepared by mechanically mixing the main powder constituent, i.e., iron ASC 100.29 powder with different weight percent of zinc stearate at different mixing time. Compaction load was varied from 105. kN to 125. kN using simultaneous compaction mechanism. The microstructures of the green compacts were analyzed by Scanning Electron Microscopy (SEM), and the mechanical properties are measured through density measurement, hardness test and electrical conductivity test. The study found that increase in compaction load as well as forming temperature give improved microstructure and mechanical properties. It is also found that effects of lubrication to the mechanical properties of green compacts are strongly dependant on the lubricant content as well as mixing time of iron powder with the lubricant. � 2010 Elsevier Ltd. Final 2023-12-29T07:49:22Z 2023-12-29T07:49:22Z 2011 Article 10.1016/j.matdes.2010.06.013 2-s2.0-77956169447 https://www.scopus.com/inward/record.uri?eid=2-s2.0-77956169447&doi=10.1016%2fj.matdes.2010.06.013&partnerID=40&md5=2181b170e7bdf8c3937cc827f7a44ca1 https://irepository.uniten.edu.my/handle/123456789/30553 32 1 447 452 Scopus |
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C. Powder metallurgy E. Mechanical G. Scanning Electron Microscopy Aluminum powder metallurgy Density (specific gravity) Electric conductivity Hardness testing Iron powder Iron powder metallurgy Lubrication Mechanical properties Metallurgy Microstructure Powders Scanning Scanning electron microscopy Steel powder metallurgy Zinc Ambient temperatures C. Powder metallurgy Compaction load Compaction mechanisms Density Measurements E. Mechanical Electrical conductivity Forming parameters Forming temperature G. Scanning electron microscopy Green compacts Hardness test Lubricant content Microstructure and mechanical properties Mixing time Recrystallization temperatures SEM Warm compaction Warm forming Weight percent Zinc stearate Compaction |
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C. Powder metallurgy E. Mechanical G. Scanning Electron Microscopy Aluminum powder metallurgy Density (specific gravity) Electric conductivity Hardness testing Iron powder Iron powder metallurgy Lubrication Mechanical properties Metallurgy Microstructure Powders Scanning Scanning electron microscopy Steel powder metallurgy Zinc Ambient temperatures C. Powder metallurgy Compaction load Compaction mechanisms Density Measurements E. Mechanical Electrical conductivity Forming parameters Forming temperature G. Scanning electron microscopy Green compacts Hardness test Lubricant content Microstructure and mechanical properties Mixing time Recrystallization temperatures SEM Warm compaction Warm forming Weight percent Zinc stearate Compaction Rahman M.M. Nor S.S.M. Rahman H.Y. Investigation on the effect of lubrication and forming parameters to the green compact generated from iron powder through warm forming route |
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In order to generate green compacts of iron ASC 100.29 powder at above ambient temperature and below its recrystallization temperature, a warm compaction rig is designed and fabricated which can be operated at various temperature and load. The aim of this paper is to present the outcomes of an investigation on the effect of lubrication and forming parameters, i.e., load and temperature to the green compacts generated through warm compaction route. The feedstock was prepared by mechanically mixing the main powder constituent, i.e., iron ASC 100.29 powder with different weight percent of zinc stearate at different mixing time. Compaction load was varied from 105. kN to 125. kN using simultaneous compaction mechanism. The microstructures of the green compacts were analyzed by Scanning Electron Microscopy (SEM), and the mechanical properties are measured through density measurement, hardness test and electrical conductivity test. The study found that increase in compaction load as well as forming temperature give improved microstructure and mechanical properties. It is also found that effects of lubrication to the mechanical properties of green compacts are strongly dependant on the lubricant content as well as mixing time of iron powder with the lubricant. � 2010 Elsevier Ltd. |
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55328831100 Rahman M.M. Nor S.S.M. Rahman H.Y. |
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Rahman M.M. Nor S.S.M. Rahman H.Y. |
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title |
Investigation on the effect of lubrication and forming parameters to the green compact generated from iron powder through warm forming route |
title_short |
Investigation on the effect of lubrication and forming parameters to the green compact generated from iron powder through warm forming route |
title_full |
Investigation on the effect of lubrication and forming parameters to the green compact generated from iron powder through warm forming route |
title_fullStr |
Investigation on the effect of lubrication and forming parameters to the green compact generated from iron powder through warm forming route |
title_full_unstemmed |
Investigation on the effect of lubrication and forming parameters to the green compact generated from iron powder through warm forming route |
title_sort |
investigation on the effect of lubrication and forming parameters to the green compact generated from iron powder through warm forming route |
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2023 |
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1806425441502756864 |