A parametric analysis of the strength-porosity relationship of green compacts formed through powder compaction route

The strength of a green compacts formed through warm powder compaction route is strongly dependent on the forming load and temperature. As the forming load increases, the powder particles move from its initial position by sliding among them and die wall. This movement results in new arrangement and...

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Main Authors: Nor S.S.M., Rahman M.M., Rahman A.T.A., Tarlochan F., Rahman H.Y.
Other Authors: 23492827600
Format: Conference paper
Published: 2023
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Institution: Universiti Tenaga Nasional
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spelling my.uniten.dspace-305162023-12-29T15:48:47Z A parametric analysis of the strength-porosity relationship of green compacts formed through powder compaction route Nor S.S.M. Rahman M.M. Rahman A.T.A. Tarlochan F. Rahman H.Y. 23492827600 55328831100 57212819432 9045273600 7101793656 Porosity Powder compaction Pressure Strength Temperature Bending strength Compaction Mechanical properties Mechanics Porosity Scanning electron microscopy Sintering Die wall Forming loads Forming parameters Green compacts Initial position Packing order Parametric analysis Powder compaction Powder compactions Powder particles Strength Warm powder compaction Powders The strength of a green compacts formed through warm powder compaction route is strongly dependent on the forming load and temperature. As the forming load increases, the powder particles move from its initial position by sliding among them and die wall. This movement results in new arrangement and packing order of the particles. However, due to this movement, pores among the particles are generated that affects the mechanical properties of the green compacts. Having pores in green compacts lead to strain intensification at ligaments between pores during sintering at later stage, hence serve as areas for crack initiation. Therefore, as the powder forming relates directly to the load and temperature, strength to porosity relationship has to be analyzed based on those parameters. This paper presents the effect of porosity to the strength of green compacts formed at different load and temperature (70 kN to 130 kN; 30�C to 200�C). The bending strengths of green compacts are measured while Scanning Electron Microscopy is used for porosity evaluation. It has been found from the results that porosity and strength are related to each other at all forming parameters. In addition, high forming load and temperature give better strength due toporosity reduction. � (2011) Trans Tech Publications, Switzerland. Final 2023-12-29T07:48:47Z 2023-12-29T07:48:47Z 2011 Conference paper 10.4028/www.scientific.net/AMM.83.1 2-s2.0-80052122621 https://www.scopus.com/inward/record.uri?eid=2-s2.0-80052122621&doi=10.4028%2fwww.scientific.net%2fAMM.83.1&partnerID=40&md5=e50254fadb382406201f34f2a334b324 https://irepository.uniten.edu.my/handle/123456789/30516 83 1 6 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 Porosity
Powder compaction
Pressure
Strength
Temperature
Bending strength
Compaction
Mechanical properties
Mechanics
Porosity
Scanning electron microscopy
Sintering
Die wall
Forming loads
Forming parameters
Green compacts
Initial position
Packing order
Parametric analysis
Powder compaction
Powder compactions
Powder particles
Strength
Warm powder compaction
Powders
spellingShingle Porosity
Powder compaction
Pressure
Strength
Temperature
Bending strength
Compaction
Mechanical properties
Mechanics
Porosity
Scanning electron microscopy
Sintering
Die wall
Forming loads
Forming parameters
Green compacts
Initial position
Packing order
Parametric analysis
Powder compaction
Powder compactions
Powder particles
Strength
Warm powder compaction
Powders
Nor S.S.M.
Rahman M.M.
Rahman A.T.A.
Tarlochan F.
Rahman H.Y.
A parametric analysis of the strength-porosity relationship of green compacts formed through powder compaction route
description The strength of a green compacts formed through warm powder compaction route is strongly dependent on the forming load and temperature. As the forming load increases, the powder particles move from its initial position by sliding among them and die wall. This movement results in new arrangement and packing order of the particles. However, due to this movement, pores among the particles are generated that affects the mechanical properties of the green compacts. Having pores in green compacts lead to strain intensification at ligaments between pores during sintering at later stage, hence serve as areas for crack initiation. Therefore, as the powder forming relates directly to the load and temperature, strength to porosity relationship has to be analyzed based on those parameters. This paper presents the effect of porosity to the strength of green compacts formed at different load and temperature (70 kN to 130 kN; 30�C to 200�C). The bending strengths of green compacts are measured while Scanning Electron Microscopy is used for porosity evaluation. It has been found from the results that porosity and strength are related to each other at all forming parameters. In addition, high forming load and temperature give better strength due toporosity reduction. � (2011) Trans Tech Publications, Switzerland.
author2 23492827600
author_facet 23492827600
Nor S.S.M.
Rahman M.M.
Rahman A.T.A.
Tarlochan F.
Rahman H.Y.
format Conference paper
author Nor S.S.M.
Rahman M.M.
Rahman A.T.A.
Tarlochan F.
Rahman H.Y.
author_sort Nor S.S.M.
title A parametric analysis of the strength-porosity relationship of green compacts formed through powder compaction route
title_short A parametric analysis of the strength-porosity relationship of green compacts formed through powder compaction route
title_full A parametric analysis of the strength-porosity relationship of green compacts formed through powder compaction route
title_fullStr A parametric analysis of the strength-porosity relationship of green compacts formed through powder compaction route
title_full_unstemmed A parametric analysis of the strength-porosity relationship of green compacts formed through powder compaction route
title_sort parametric analysis of the strength-porosity relationship of green compacts formed through powder compaction route
publishDate 2023
_version_ 1806428103805763584