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Effect of Sintering Parameters on the Mechanical Properties and Wear Performance of Alumina Inserts

Abdul Aziz Adam, Hadzley Abu Bakar, Umar Al Amani, Lailatul Harina Paijan, Norfariza Ab Wahab, Mohd Fauzi Mamat, Mohd Basri Ali, Safarudin Gazali Herawan, Zulkifli Ahmad

2022Lubricants14 citationsDOIOpen Access PDF

Abstract

The sintering temperature and holding time have a significant impact on the densification of a ceramic compact. In this study, alumina inserts were made with varying sintering temperatures and holding times. The procedure began with the compacting of alumina powders inside a mould with trapezium and round shapes. These inserts were then sintered between 1200 °C and 1400 °C for 5 to 9 h holding time. The sintered samples underwent analysis based on the shrinkage size, density, and microstructure. The sample with the highest density was chosen for additional machining tests. The results showed that the alumina shrinkage ranged from 3 to 6%, with a maximum relative density of 91.3% recorded when the sintering parameter was applied at 1400 °C and a 9 h holding time. The transition of the grain growth was observed depending on the sintering temperature and heating duration. When machined with AISI 1045 carbon steel, the sintered alumina inserts achieved a maximum tool life of 35 s at a cutting speed of 350 m/min. The sintered inserts exhibited brittle characteristics with a dominant notch wear and abrasive mechanisms.

Topics & Concepts

SinteringMaterials scienceShrinkageMicrostructureAbrasiveCeramicRelative densityAlumina ceramicComposite materialBrittlenessMetallurgyMachiningGrain sizeMaximum densityPhysicsQuantum mechanicsAdvanced ceramic materials synthesisAdvanced materials and compositesInjection Molding Process and Properties
Effect of Sintering Parameters on the Mechanical Properties and Wear Performance of Alumina Inserts | Litcius