Finite element model of iron powder compaction at above room temperature

This paper presents the finite element modelling of iron powder compaction process at above ambient temperature. The deformation behaviour of powder mass at elevated temperature was assumed to be rate independent thermo-elastoplastic material where the material constitutive laws were derived based o...

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Main Authors: Rahman M.M., Ariffin A.K.
Other Authors: 55328831100
Format: Conference Paper
Published: American Institute of Physics Inc. 2023
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Institution: Universiti Tenaga Nasional
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spelling my.uniten.dspace-223392023-05-29T14:00:19Z Finite element model of iron powder compaction at above room temperature Rahman M.M. Ariffin A.K. 55328831100 6701641666 This paper presents the finite element modelling of iron powder compaction process at above ambient temperature. The deformation behaviour of powder mass at elevated temperature was assumed to be rate independent thermo-elastoplastic material where the material constitutive laws were derived based on a continuum mechanics approach by considering a large displacement based finite element formulation. The temperature dependent material parameters were established through experimentation. Two constitutive relations namely Mohr-Coulomb and Elliptical Cap yield models were used to represent the deformation behaviour of the powder mass during the compaction process. These yield models were tested, however an Elliptical Cap model was shown to be the most appropriate to represent the compaction process. The staggered-incremental-iterative solution strategy was established to solve the non-linearity in the systems of equations. Some numerical simulation results were validated through experimentation, where a good agreement was observed. � 2015 AIP Publishing LLC. Final 2023-05-29T06:00:19Z 2023-05-29T06:00:19Z 2015 Conference Paper 10.1063/1.4915799 2-s2.0-85006202918 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85006202918&doi=10.1063%2f1.4915799&partnerID=40&md5=e33cd93e870d19370c78e74459f9ccb4 https://irepository.uniten.edu.my/handle/123456789/22339 1660 70081 American Institute of Physics Inc. Scopus
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country Malaysia
content_provider Universiti Tenaga Nasional
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description This paper presents the finite element modelling of iron powder compaction process at above ambient temperature. The deformation behaviour of powder mass at elevated temperature was assumed to be rate independent thermo-elastoplastic material where the material constitutive laws were derived based on a continuum mechanics approach by considering a large displacement based finite element formulation. The temperature dependent material parameters were established through experimentation. Two constitutive relations namely Mohr-Coulomb and Elliptical Cap yield models were used to represent the deformation behaviour of the powder mass during the compaction process. These yield models were tested, however an Elliptical Cap model was shown to be the most appropriate to represent the compaction process. The staggered-incremental-iterative solution strategy was established to solve the non-linearity in the systems of equations. Some numerical simulation results were validated through experimentation, where a good agreement was observed. � 2015 AIP Publishing LLC.
author2 55328831100
author_facet 55328831100
Rahman M.M.
Ariffin A.K.
format Conference Paper
author Rahman M.M.
Ariffin A.K.
spellingShingle Rahman M.M.
Ariffin A.K.
Finite element model of iron powder compaction at above room temperature
author_sort Rahman M.M.
title Finite element model of iron powder compaction at above room temperature
title_short Finite element model of iron powder compaction at above room temperature
title_full Finite element model of iron powder compaction at above room temperature
title_fullStr Finite element model of iron powder compaction at above room temperature
title_full_unstemmed Finite element model of iron powder compaction at above room temperature
title_sort finite element model of iron powder compaction at above room temperature
publisher American Institute of Physics Inc.
publishDate 2023
_version_ 1806425590851436544