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Synthesis, sintering, and effect of surface roughness on oxidation of submicron Ti <sub>2</sub> AlC ceramics

Sylvain Badie, Apurv Dash, Yoo Jung Sohn, Robert Vaßen, Olivier Guillon, Jesús González‐Julián

2020Journal of the American Ceramic Society54 citationsDOIOpen Access PDF

Abstract

Abstract Submicron Ti 2 AlC MAX phase powder was synthesized by molten salt shielded synthesis (MS 3 ) using a Ti:Al:C molar ratio of 2:1:0.9 at a process temperature of 1000°C for 5 hours. The synthesized powder presented a mean particle size of ~0.9 µm and a purity of 91 wt. % Ti 2 AlC, containing 6 wt. % Ti 3 AlC 2 . The Ti 2 AlC powder was sintered by pressureless sintering, achieving a maximal relative density of 90%, hence field‐assisted sintering technology/spark plasma sintering was used to enhance densification. The fine‐grained microstructure was preserved, and phase purity of Ti 2 AlC was unaltered in the latter case, with a relative density of 98.5%. Oxidation was performed at 1200°C for 50 hours in static air of dense monolithic Ti 2 AlC with different surface finish, (polished, ground and sandblasted) which resulted in the formation of an approx. 8 µm thin aluminum oxide (Al 2 O 3 ) layer decorated with titanium dioxide (rutile, TiO 2 ) colonies. Surface quality had no influence on Al 2 O 3 scale thickness, but the amount and size of TiO 2 crystals increased with surface roughness. A phenomenon of rumpling of the thermally grown oxide (TGO) was observed and a model to estimate the extent of deformation is proposed.

Topics & Concepts

Materials scienceSinteringRelative densitySpark plasma sinteringMicrostructureSurface roughnessRutileOxideCeramicSurface finishTitaniumPhase (matter)Composite materialMetallurgyChemical engineeringChemistryEngineeringOrganic chemistryMXene and MAX Phase MaterialsAluminum Alloys Composites Properties
Synthesis, sintering, and effect of surface roughness on oxidation of submicron Ti <sub>2</sub> AlC ceramics | Litcius