18th AIAA/3AF International Space Planes and Hypersonic Systems and Technologies Conference 2012
DOI: 10.2514/6.2012-5877
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Technology Status of Fuel Cooled Ceramic Matrix Composites for Dual-Mode Ramjet (DMR) and Liquid Rocket Engine (LRE) Applications

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Cited by 11 publications
(6 citation statements)
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“…As little flow stagnation occurs in flight, flight simulation species mass fractions were set based on a 3. premature combustion of intake injected fuel [33]. Downstream of the cowl closure, wall temperature is ramped in proportion to the inlet area contraction to reach 1800 K by the combustor entrance, holding these combustor and nozzle walls at the upper operational limit of ceramic matrix composites such as carbon fibre reinforced silicon carbide (C/C-SiC) [34].…”
Section: Tunnel Vs Flight -Flow and Model Conditionsmentioning
confidence: 99%
“…As little flow stagnation occurs in flight, flight simulation species mass fractions were set based on a 3. premature combustion of intake injected fuel [33]. Downstream of the cowl closure, wall temperature is ramped in proportion to the inlet area contraction to reach 1800 K by the combustor entrance, holding these combustor and nozzle walls at the upper operational limit of ceramic matrix composites such as carbon fibre reinforced silicon carbide (C/C-SiC) [34].…”
Section: Tunnel Vs Flight -Flow and Model Conditionsmentioning
confidence: 99%
“…Carbon fiber‐reinforced silicon carbide matrix composites are one of the most promising material alternatives to the heavy superalloys for applications in rocket propulsion, such as rocket nozzle extensions. Due to their excellent thermal and mechanical properties at high temperatures and due to their low material density, they will increase the payload capacity and improve the performance of future upper‐stage and orbital rocket engines …”
Section: Introductionmentioning
confidence: 99%
“…Due to their excellent thermal and mechanical properties at high temperatures and due to their low material density, they will increase the payload capacity and improve the performance of future upper-stage and orbital rocket engines. [1][2][3][4][5] A variety of different ceramic matrix composite (CMC) processing routes have been studied intensively during the last 10 years, including chemical vapor infiltration (CVI), [6][7][8][9] liquid polymer infiltration and pyrolysis (PIP), 10,11 and reactive melt infiltration, [12][13][14][15][16] and combinations of these. Processing costs and durations are significantly high using CVI or PIP fabrication routes.…”
Section: Introductionmentioning
confidence: 99%
“…Within the combustor in particular, static temperatures exceeding 2000 K combine with static pressures of approximately 0.5 atm and magnified localised heating at shock impingement locations to foster an extremely hostile working environment (Barth, 2014). This heat must be transported away from the combustor walls, with even high temperature ceramic matrix composites such as carbon fibre reinforced silicon carbide (C/C-SiC) only remaining operable to approximately 1800 K (Beyer et al, 2012). This management, however, is more routine than for leading edges.…”
Section: Heat Managementmentioning
confidence: 99%
“…With this noted, flight forebody and inlet wall temperatures were set to be isothermal at 800 K, which has been demonstrated to not induce premature combustion of intake injected fuel (Gardner et al, 2002). Downstream of the cowl closure, wall temperature is ramped in proportion to the inlet area contraction to reach 1800 K by the combustor entrance, holding these combustor and nozzle walls at the upper operational limit of ceramic matrix composites such as carbon fibre reinforced silicon carbide (C/C-SiC) (Beyer et al, 2012).…”
Section: Tunnel Vs Flight -Flow and Model Conditionsmentioning
confidence: 99%