Studies on formability of sintered aluminum composites during hot deformation using strain hardening parameters

Studies on formability of sintered aluminum composites during hot deformation using strain hardening parameters

Formability is the limit to which a material can be deformed before failure and is upmost importance in powder metallurgy (PM) forming process. This is because the presence of porosity in the PM part after the sintering process. In this study two key strain hardening parameters are used to study the...

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Main Authors: Sumesh Narayan, Ananthanarayanan Rajeshkannan
Format: Article
Language:English
Published: Elsevier 2017-04-01
Series:Journal of Materials Research and Technology
Subjects:
Strain hardening parameters
Formability
Forming limit
Carbide
Online Access:http://www.sciencedirect.com/science/article/pii/S2238785416302721
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spelling doaj-c6d1e60fea0d456185ec64e2be4d1ef02020-11-25T03:44:41ZengElsevierJournal of Materials Research and Technology2238-78542017-04-016210110710.1016/j.jmrt.2016.03.012Studies on formability of sintered aluminum composites during hot deformation using strain hardening parametersSumesh NarayanAnanthanarayanan RajeshkannanFormability is the limit to which a material can be deformed before failure and is upmost importance in powder metallurgy (PM) forming process. This is because the presence of porosity in the PM part after the sintering process. In this study two key strain hardening parameters are used to study the workability behavior or determining the failure zone. This can be used for design of PM parts and most importantly the die design as repressing needs to be employed before pores appear as cracks on the free surface. It is nearly impossible to produce defect free parts if this failure occurs. The hot formability behavior of aluminum metal matrix composites (MMC's) that is, Al-4TiC, Al-4WC, Al-4Fe3C and Al-4Mo2C (by weight percentage) are presented in this paper.http://www.sciencedirect.com/science/article/pii/S2238785416302721Strain hardening parametersFormabilityForming limitCarbide
collection DOAJ
language English
format Article
sources DOAJ
author Sumesh Narayan
Ananthanarayanan Rajeshkannan
spellingShingle Sumesh Narayan
Ananthanarayanan Rajeshkannan
Studies on formability of sintered aluminum composites during hot deformation using strain hardening parameters
Journal of Materials Research and Technology
Strain hardening parameters
Formability
Forming limit
Carbide
author_facet Sumesh Narayan
Ananthanarayanan Rajeshkannan
author_sort Sumesh Narayan
title Studies on formability of sintered aluminum composites during hot deformation using strain hardening parameters
title_short Studies on formability of sintered aluminum composites during hot deformation using strain hardening parameters
title_full Studies on formability of sintered aluminum composites during hot deformation using strain hardening parameters
title_fullStr Studies on formability of sintered aluminum composites during hot deformation using strain hardening parameters
title_full_unstemmed Studies on formability of sintered aluminum composites during hot deformation using strain hardening parameters
title_sort studies on formability of sintered aluminum composites during hot deformation using strain hardening parameters
publisher Elsevier
series Journal of Materials Research and Technology
issn 2238-7854
publishDate 2017-04-01
description Formability is the limit to which a material can be deformed before failure and is upmost importance in powder metallurgy (PM) forming process. This is because the presence of porosity in the PM part after the sintering process. In this study two key strain hardening parameters are used to study the workability behavior or determining the failure zone. This can be used for design of PM parts and most importantly the die design as repressing needs to be employed before pores appear as cracks on the free surface. It is nearly impossible to produce defect free parts if this failure occurs. The hot formability behavior of aluminum metal matrix composites (MMC's) that is, Al-4TiC, Al-4WC, Al-4Fe3C and Al-4Mo2C (by weight percentage) are presented in this paper.
topic Strain hardening parameters
Formability
Forming limit
Carbide
url http://www.sciencedirect.com/science/article/pii/S2238785416302721
work_keys_str_mv AT sumeshnarayan studiesonformabilityofsinteredaluminumcompositesduringhotdeformationusingstrainhardeningparameters
AT ananthanarayananrajeshkannan studiesonformabilityofsinteredaluminumcompositesduringhotdeformationusingstrainhardeningparameters
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