The test facility presented herein uses a groundbased rocket combustor to test the durability of new ceramic composite and metallic materials in a rocket engine thermal environment. A gaseous H2/02 rocket combustor (essentially a ground-based rocket engine) is used to generate a high temperature/high heat flux environment to which advanced ceramic and/or metallic materials are exposed. These materials can either be an integral part of the combustor (nozzle, thrust chamber etc) or can be mounted downstream of the combustor in the combustor exhaust plume. The test materials can be uncooled, water cooled or cooled with gaseous hydrogen
The use of ceramic materials in the hot section of the fuel turbopump of advanced reusable rocket en...
A test facility for conducting scaled advanced nozzle and engine component research is described. Th...
A low thrust chemical rocket test facility has recently become operational at the NASA-Lewis. The ne...
A major concern in advancing the state-of-the-art technologies for hypersonic vehicles is the develo...
The capabilities of a heated tube facility used for testing rocket engine coolant channels at the NA...
The original test stand location has a small copper rocket engine mounted on the stand. The new stan...
A hyper-thermal environment simulator is described for hot hydrogen exposure of nuclear thermal rock...
Ceramics are prime candidate materials for advanced rocket engines because they possess high-tempera...
NASA Marshall Space Flight Center's Materials and Processes Department, with support from the Propul...
The identification and characterization of oxygen-rich compatible materials enables full-flow, stage...
Aspects of the development and characteristics of thermal shock resistant hafnia ceramic material fo...
This paper presents the results of experimental tests for the characterization of Ultra-High-Tempera...
An arc-heater driven hyper-thermal convective environments simulator was recently developed and comm...
To support the eventual development of a nuclear thermal rocket engine, a state-of-the-art experimen...
A hydrogen-oxygen subscale rocket combustion chamber was designed incorporating an advanced design c...
The use of ceramic materials in the hot section of the fuel turbopump of advanced reusable rocket en...
A test facility for conducting scaled advanced nozzle and engine component research is described. Th...
A low thrust chemical rocket test facility has recently become operational at the NASA-Lewis. The ne...
A major concern in advancing the state-of-the-art technologies for hypersonic vehicles is the develo...
The capabilities of a heated tube facility used for testing rocket engine coolant channels at the NA...
The original test stand location has a small copper rocket engine mounted on the stand. The new stan...
A hyper-thermal environment simulator is described for hot hydrogen exposure of nuclear thermal rock...
Ceramics are prime candidate materials for advanced rocket engines because they possess high-tempera...
NASA Marshall Space Flight Center's Materials and Processes Department, with support from the Propul...
The identification and characterization of oxygen-rich compatible materials enables full-flow, stage...
Aspects of the development and characteristics of thermal shock resistant hafnia ceramic material fo...
This paper presents the results of experimental tests for the characterization of Ultra-High-Tempera...
An arc-heater driven hyper-thermal convective environments simulator was recently developed and comm...
To support the eventual development of a nuclear thermal rocket engine, a state-of-the-art experimen...
A hydrogen-oxygen subscale rocket combustion chamber was designed incorporating an advanced design c...
The use of ceramic materials in the hot section of the fuel turbopump of advanced reusable rocket en...
A test facility for conducting scaled advanced nozzle and engine component research is described. Th...
A low thrust chemical rocket test facility has recently become operational at the NASA-Lewis. The ne...
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