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Powder material parameters establishment through warm forming route

This paper presents the establishment of the properties of powder materials through experimentation at elevated temperature ranging from room temperature (30 �C) to 150 �C. Uniaxial die compaction experiments were conducted to establish the powder properties such as densification, Young's modul...

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Main Authors: Rahman M.M., Ariffin A.K., Nor S.S.M., Rahman H.Y.
Other Authors: 55328831100
Format: Article
Published: 2023
Subjects:
C. Powder metallurgy
F. Elastic behaviour
F. Plastic behaviour
Aluminum powder metallurgy
Compaction
Experiments
Friction
Holmium
Iron powder
Iron powder metallurgy
Metallurgy
Plastics
Steel powder metallurgy
Compaction temperature
Deformation properties
Elastic behaviour
Elevated temperature
Friction coefficients
Plastic hardening coefficient
Powder material
Powder properties
Room temperature
Spring-back
Temperature dependent
Uniaxial die compaction
Warm forming
Young's Modulus
Materials properties
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spelling my.uniten.dspace-306382023-12-29T15:50:40Z Powder material parameters establishment through warm forming route Rahman M.M. Ariffin A.K. Nor S.S.M. Rahman H.Y. 55328831100 6701641666 23492827600 7101793656 C. Powder metallurgy F. Elastic behaviour F. Plastic behaviour Aluminum powder metallurgy Compaction Experiments Friction Holmium Iron powder Iron powder metallurgy Metallurgy Plastics Steel powder metallurgy C. Powder metallurgy Compaction temperature Deformation properties Elastic behaviour Elevated temperature F. Plastic behaviour Friction coefficients Plastic hardening coefficient Powder material Powder properties Room temperature Spring-back Temperature dependent Uniaxial die compaction Warm forming Young's Modulus Materials properties This paper presents the establishment of the properties of powder materials through experimentation at elevated temperature ranging from room temperature (30 �C) to 150 �C. Uniaxial die compaction experiments were conducted to establish the powder properties such as densification, Young's modulus, spring-back, plastic index, elastic index, and plastic hardening coefficient. Shearing experiments were conducted to establish the temperature dependent friction coefficient. Iron powder ASC 100.29, manufactured by H�gan�s AB Company was used during the experiment. The results showed that the deformation properties of powder materials especially iron powder are temperature dependent. The values of some properties are increased as the compaction temperature increased and vice versa. � 2010 Elsevier Ltd. Final 2023-12-29T07:50:40Z 2023-12-29T07:50:40Z 2011 Article 10.1016/j.matdes.2010.05.058 2-s2.0-77956177641 https://www.scopus.com/inward/record.uri?eid=2-s2.0-77956177641&doi=10.1016%2fj.matdes.2010.05.058&partnerID=40&md5=e59c35b48eb635c9db40906f3ae9b614 https://irepository.uniten.edu.my/handle/123456789/30638 32 1 264 271 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic C. Powder metallurgy
F. Elastic behaviour
F. Plastic behaviour
Aluminum powder metallurgy
Compaction
Experiments
Friction
Holmium
Iron powder
Iron powder metallurgy
Metallurgy
Plastics
Steel powder metallurgy
C. Powder metallurgy
Compaction temperature
Deformation properties
Elastic behaviour
Elevated temperature
F. Plastic behaviour
Friction coefficients
Plastic hardening coefficient
Powder material
Powder properties
Room temperature
Spring-back
Temperature dependent
Uniaxial die compaction
Warm forming
Young's Modulus
Materials properties
spellingShingle C. Powder metallurgy
F. Elastic behaviour
F. Plastic behaviour
Aluminum powder metallurgy
Compaction
Experiments
Friction
Holmium
Iron powder
Iron powder metallurgy
Metallurgy
Plastics
Steel powder metallurgy
C. Powder metallurgy
Compaction temperature
Deformation properties
Elastic behaviour
Elevated temperature
F. Plastic behaviour
Friction coefficients
Plastic hardening coefficient
Powder material
Powder properties
Room temperature
Spring-back
Temperature dependent
Uniaxial die compaction
Warm forming
Young's Modulus
Materials properties
Rahman M.M.
Ariffin A.K.
Nor S.S.M.
Rahman H.Y.
Powder material parameters establishment through warm forming route
description This paper presents the establishment of the properties of powder materials through experimentation at elevated temperature ranging from room temperature (30 �C) to 150 �C. Uniaxial die compaction experiments were conducted to establish the powder properties such as densification, Young's modulus, spring-back, plastic index, elastic index, and plastic hardening coefficient. Shearing experiments were conducted to establish the temperature dependent friction coefficient. Iron powder ASC 100.29, manufactured by H�gan�s AB Company was used during the experiment. The results showed that the deformation properties of powder materials especially iron powder are temperature dependent. The values of some properties are increased as the compaction temperature increased and vice versa. � 2010 Elsevier Ltd.
author2 55328831100
author_facet 55328831100
Rahman M.M.
Ariffin A.K.
Nor S.S.M.
Rahman H.Y.
format Article
author Rahman M.M.
Ariffin A.K.
Nor S.S.M.
Rahman H.Y.
author_sort Rahman M.M.
title Powder material parameters establishment through warm forming route
title_short Powder material parameters establishment through warm forming route
title_full Powder material parameters establishment through warm forming route
title_fullStr Powder material parameters establishment through warm forming route
title_full_unstemmed Powder material parameters establishment through warm forming route
title_sort powder material parameters establishment through warm forming route
publishDate 2023
_version_ 1806428512403324928
score 13.18916

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