Journal ArticleDOI
High temperature oxidation of Zr- and Hf-carbides: Influence of matrix and sintering additive
TLDR
In this article, the high pressure and solar temperature reactor (Reacteur Hautes Pression et Temperature Solaire, REHPTS) implemented at the focus of the Odeillo 5kW solar furnace was used to investigate the oxidation of three refractory carbides containing different sintering additives.Abstract:
Ultra-high temperature ceramics having melting points above 3500 K and high thermal conductivities are envisaged as future receivers of concentrating solar power plants. The high pressure and solar temperature reactor (Reacteur Hautes Pression et Temperature Solaire, REHPTS) implemented at the focus of the Odeillo 5 kW solar furnace was used to investigate the oxidation of three refractory carbides containing different sintering additives (HfC/MoSi2, ZrC/MoSi2, ZrC/TaSi2) that could be considered as promising candidates. The concentration of the additive, TaSi2 or MoSi2, was 20 vol%. Each kind of sample was oxidized in air for 20 min at 1800, 2000 and 2200 K. Experiments were filmed using a video camera and the gaseous phases were analyzed in situ by mass spectrometry. Various post-test characterizations have shown that the nature of the carbide and additive strongly affects the composition of the oxide layer and therefore the high-temperature behaviour.read more
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Ultra-High Temperature Materials II: Refractory Carbides I (Ta, Hf, NB and Zr Carbides)
TL;DR: In this paper, a thorough treatment of ultra-high temperature materials with melting points around or over 2500 °C is presented, which can be applied in various engineering devices and environmental conditions in the wide range from cryogenic to ultra high temperatures, on the basis of the latest updates in the field of physics, chemistry, nanotechnology, materials science and engineering.
Journal ArticleDOI
HfC-ZrC-SiC multiphase protective coating for SiC-coated C/C composites prepared by supersonic atmospheric plasma spraying
TL;DR: In this article, a multiphase HfC-ZrC-SiC (HZS) multi-phase coating was deposited on the surface of SiC-coated carbon/carbon composites by supersonic atmospheric plasma spraying.
Journal ArticleDOI
Ablation behavior of rare earth La-modified ZrC coating for SiC-coated carbon/carbon composites under an oxyacetylene torch
TL;DR: In this article, a La-modified ZrC coating was applied on SiC-coated C/C composites by supersonic atmosphere plasma spraying to improve the ablation resistance of carbon/carbon composites.
Journal ArticleDOI
Ablation resistance of supersonic-atmosphere-plasma-spraying ZrC coating doped with ZrO2 for SiC-coated carbon/carbon composites
TL;DR: In this paper, the authors improved the ablation resistance of ZrC coating for carbon/carbon composites by doping ZrO 2 using supersonic atmosphere plasma spraying (SAPS).
Journal ArticleDOI
Ablation tests on HfC- and TaC-based ceramics for aeropropulsive applications
TL;DR: In this article, HfC and TaC-based composite materials containing 15% MoSi 2 as sintering aid were selected for their excellent combination of ceramic and metallic properties to produce simple shaped prototypes for ablation tests in a mixture of oxygen/butane/propane at temperatures between 1300°C and 1900°C.
References
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Journal ArticleDOI
High‐Temperature Oxidation II . Molybdenum Silicides
TL;DR: In this article, the oxidized samples display a smooth glassy outer oxide layer that bridges across the tops of the cracks in the alloys and an inner oxidized zone, consisting of several irregular phases.
Journal ArticleDOI
Thermal stability of zircon (ZrSiO4)
TL;DR: Based on annealing experiments with natural and synthetic raw materials of known grain size and impurity level as well as single crystals, the temperature of thermal dissociation of ZrSiO 4 was assessed at 1673±10°C as discussed by the authors.
Journal ArticleDOI
Evaluation of porous silicon carbide monolithic honeycombs as volumetric receivers/collectors of concentrated solar radiation
Christos Agrafiotis,Ilias Mavroidis,Athanasios G. Konstandopoulos,Bernard Hoffschmidt,Per Stobbe,Manuel Romero,Valerio Fernandez-Quero +6 more
TL;DR: In this paper, the porosity of monolithic multi-channeled silicon carbide (SiC) honeycombs employed as open volumetric receivers of concentrated solar radiation was evaluated with respect to their porous structure and thermomechanical properties before and after long-time operation.