Effects of sintering schedule on the characteristics of fe-based powder compacts formed through warm compaction route

This paper presents the sintering characteristics of Fe-based powder compacts formed through the warm compaction method. Iron powder ASC100.29 (73 wt%), chromium powder (22 wt%), and aluminium powder (5 wt%) were mixed mechanically for 60 mins in preparing the feedstock. The powder mixture was subse...

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Bibliographic Details
Main Authors: Rahman M.M., Rosli M.H., Namasivayam D.
Other Authors: 55328831100
Format: Article
Published: Universiti Malaysia Pahang 2023
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Institution: Universiti Tenaga Nasional
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Summary:This paper presents the sintering characteristics of Fe-based powder compacts formed through the warm compaction method. Iron powder ASC100.29 (73 wt%), chromium powder (22 wt%), and aluminium powder (5 wt%) were mixed mechanically for 60 mins in preparing the feedstock. The powder mixture was subsequently compacted at 200�C through simultaneous loading of 325 MPa from upper and lower punches. The defectfree green compacts were then sintered in an argon gas fired furnace at a rate of 10�C/min by varying the sintering time (30, 60, and 90 mins) and temperature (600, 750, and 900�C), respectively. The sintered samples were characterized through physical and mechanical properties and their microstructures were analysed through scanning electron microscopy. The results revealed that sintering at 900�C for 90 mins contributed to the highest volumetric expansion and relative density change, which are not expected in the powder metallurgy industries. A moderate sintering temperature of 750�C for a holding time of 60 mins was found to produce a sintered sample with higher bending strength. In these sintering conditions, better dispersion of the alloyed elements is also observed. � Universiti Malaysia Pahang Publishing.