Litcius/Paper detail

Oxidation resistance of Zr- and Hf-diboride composites containing SiC in air plasma up to 2600 K for aerospace applications

C. Pellegrini, Marianne Balat‐Pichelin, Olivier Rapaud, E. Bêche

2021Ceramics International22 citationsDOIOpen Access PDF

Abstract

Microstructure-controlled and fully-dense ZrB2 and HfB2 composites were elaborated by Spark Plasma Sintering with two different amounts of SiC (20 and 30 vol%) added to improve their oxidation resistance using optimized sintering parameters. Oxidation of several samples in air plasma conditions, at 1000 Pa total pressure and from 1800 K up to 2600 K, was carried out. The mass variation of samples during oxidation duration of 300 s on a temperature plateau was followed. A four-step oxidation mechanism, identified by four singular mass variation behaviors depending on the oxidation temperature ranges, was proposed and detailed. The total normal emissivity was measured on pre-oxidized samples and high values around 0.90 were obtained from 1300 to 1900 K due to the presence of the oxide layer formed in air plasma conditions and this high emissivity is interesting for aerospace applications.

Topics & Concepts

Materials scienceSpark plasma sinteringMicrostructurePlasmaComposite materialEmissivitySinteringOxideMetallurgyNuclear physicsPhysicsOpticsAdvanced ceramic materials synthesisAdvanced materials and compositesMetal and Thin Film Mechanics