Charpentier et al., 2011 - Google Patents
Concentrated solar energy to study high temperature materials for space and energyCharpentier et al., 2011
- Document ID
- 8009848395127039583
- Author
- Charpentier L
- Dawi K
- Eck J
- Pierrat B
- Sans J
- Balat-Pichelin M
- Publication year
External Links
Snippet
In this paper, the concentrated solar energy is used as a source of high temperatures to study the physical and chemical behaviors and intrinsic properties of refractory materials. The atmospheres surrounding the materials have to be simulated in experimental reactors to …
- 239000000463 material 0 title abstract description 52
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Monteverde et al. | ZrB2–SiC sharp leading edges in high enthalpy supersonic flows | |
| Mungiguerra et al. | Ultra-high-temperature testing of sintered ZrB2-based ceramic composites in atmospheric re-entry environment | |
| Panerai et al. | Flow-tube oxidation experiments on the carbon preform of a phenolic-impregnated carbon ablator | |
| Limarga et al. | Stress distributions in plasma-sprayed thermal barrier coatings under thermal cycling in a temperature gradient | |
| Suzuki et al. | Nonablative lightweight thermal protection system for Mars Aeroflyby Sample collection mission | |
| Balat-Pichelin et al. | Passive/active oxidation transition for CMC structural materials designed for the IXV vehicle re-entry phase | |
| Paglia et al. | Design of new carbon-phenolic ablators: Manufacturing, plasma wind tunnel tests and finite element model rebuilding | |
| Pham et al. | Oxidation kinetics of silicon carbide in steam at temperature range of 1400 to 1800 C studied by laser heating | |
| Splinter et al. | Comparative measurements of earth and martian entry environments in the nasa langley hymets facility | |
| Mohan et al. | Heating and ignition of metal particles in the transition heat transfer regime | |
| Owens et al. | Fracture behavior of woven silicon carbide fibers exposed to high‐temperature nitrogen and oxygen plasmas | |
| Charpentier et al. | Concentrated solar energy to study high temperature materials for space and energy | |
| Le Saux et al. | Influence of steam pressure on the high temperature oxidation and post-cooling mechanical properties of Zircaloy-4 and M5 cladding (LOCA conditions) | |
| Shi et al. | A solar radiant heating apparatus for measuring the thermal behavior of silica fiber phenolic composite for thermal protection applications | |
| More et al. | Exposure of ceramics and ceramic matrix composites in simulated and actual combustor environments | |
| Paterniani Rita et al. | Hypersonic plasma setup for oxidation testing of ultrahigh temperature ceramic composites | |
| Wang et al. | Multiphysics simulation of moisture-graphite oxidation in MHTGR | |
| Balat-Pichelin et al. | Concentrated solar energy as a diagnostic tool to study materials under extreme conditions | |
| Gazella et al. | High temperature oxidation of additively and traditionally manufactured inconel 718 | |
| Pham et al. | Influence of steam flow rate on oxidation kinetics of silicon carbide at 1400–1600° C | |
| DelCorso et al. | Flexible thermal protection system development for hypersonic inflatable aerodynamic decelerators | |
| Pesci et al. | Numerical-experimental analysis of a carbon-phenolic composite via plasma jet ablation test | |
| Ferriere et al. | Optical properties of plasma-sprayed ZrO 2-Y 2 O 3 at high temperature for solar applications | |
| Yee | Development, manufacturing, characterization, and modeling of a novel alumina/polysiloxane/boron carbide ablative composite | |
| Knipe et al. | Synchrotron X-ray diffraction measurements mapping internal strains of thermal barrier coatings during thermal gradient mechanical fatigue loading |