Novel Hybrid Ablative/Ceramic Development for Re-Entry in Planetary Atmospheric Thermal Protection: Interfacial Adhesive Selection and Test Verification Plan
| Autor: | Dominique Bernard, Beatriz Pérez, Christian Zuber, Konstantina Mergia, Cristina Ban, S. Florez, Georg Herdrich, George Vekinis, Vincent Leroy, Bartomeu Massuti, Gheorghe Ionescu, Waldermar Rotaermel, G. Pinaud, Agnes de Montbrun, Michel Descomps, Adriana Stefan, K. Triantou, Pedro Portela, J. Barcena, Ing Hermann Hald, Jean-Marc Bouilly, Wolfgang Fischer |
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| Jazyk: | angličtina |
| Rok vydání: | 2014 |
| Předmět: |
Materials science
Thermal Protection Systems Ceramic Matrix Composites Mechanical engineering Core (manufacturing) Ceramic matrix composite 7. Clean energy Shield visual_art Ablative materials Ablative case Thermal visual_art.visual_art_medium Atmospheric Re-entry Adhesive Ceramic Composite material Layer (electronics) |
| Popis: | The FP7 project HYDRA addresses the development of a hybrid thermal protection solution, where a low density ablator is attached on top of a thermo-structural ceramic core by means of the use of high temperature adhesives. The project aims to design, integrate and verify a robust and lightweight thermal shield solution for atmospheric earth re-entry. The main advantage of a hybrid heat-shield is based on the capability of the thin ablative top layer to bear high thermal loads, while the tough ceramic composite underneath provides structural support. European Commission FP7, 283797, HYDRA |
| Databáze: | OpenAIRE |
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