Add to ORKGA rocket engine's combustion chamber is lined with material that is highly conductive to heat in order to dissipate the huge thermal load (evident in a white-hot exhaust plume). Because of its thermal conductivity copper is the best choice of liner material. However, the mechanical properties of pure copper are inadequate to withstand the high stresses, hence, copper alloys are needed in this application. But copper and its alloys are prone to oxidation and related damage, especially "blanching" (an oxidation-reduction mode of degradation). The space shuttle main engine combustion chamber is lined with a Cu-Ag-Zr alloy, "NARloy-Z", which exhibits blanching. A superior liner is being sought for the next generation of RLVs (Reusable Launch Ve...
Porous metal sheet with controlled permeability was made by space winding and diffusion bonding fine...
To increase the lifetime of rocket combustion chambers, thermal barrier coatings (TBC) may be applie...
Continuous technological developments in the field of additive manufacturing (AM) have made this inn...
The design of the next generation of reusable launch vehicles calls for using GRCop-84 copper alloy ...
NASA's extensive efforts towards more efficient, safer, and more affordable space transportation inc...
GRCop-84, a material developed at the NASA Glenn Research Center, has shown considerable promise for...
A multidisciplinary Johns Hopkins University-NASA Glenn team is undertaking a collaborative research...
GRCop-84 is a high strength-high conductivity copper-based alloy developed at NASA Glenn Research Ce...
As part of its major investment in the area of advanced space transportation, NASA is developing new...
Novel copper-diamond materials containing particulate dispersions of diamond within a copper alloy m...
Next-generation, regeneratively cooled rocket engines will require materials that can withstand high...
Work during the prior four years of this grant has resulted in significant advances in the developme...
GRCop-84 (Cu-8 at.% Cr-4 at.% Nb) was developed at the NASA Glenn Research Center for use in regener...
A series of electrically heated tube tests was performed at the NASA Glenn Research Center s Heated ...
Rocket-engine main combustion chamber liners are used to contain the burning of fuel and oxidizer an...
Porous metal sheet with controlled permeability was made by space winding and diffusion bonding fine...
To increase the lifetime of rocket combustion chambers, thermal barrier coatings (TBC) may be applie...
Continuous technological developments in the field of additive manufacturing (AM) have made this inn...
The design of the next generation of reusable launch vehicles calls for using GRCop-84 copper alloy ...
NASA's extensive efforts towards more efficient, safer, and more affordable space transportation inc...
GRCop-84, a material developed at the NASA Glenn Research Center, has shown considerable promise for...
A multidisciplinary Johns Hopkins University-NASA Glenn team is undertaking a collaborative research...
GRCop-84 is a high strength-high conductivity copper-based alloy developed at NASA Glenn Research Ce...
As part of its major investment in the area of advanced space transportation, NASA is developing new...
Novel copper-diamond materials containing particulate dispersions of diamond within a copper alloy m...
Next-generation, regeneratively cooled rocket engines will require materials that can withstand high...
Work during the prior four years of this grant has resulted in significant advances in the developme...
GRCop-84 (Cu-8 at.% Cr-4 at.% Nb) was developed at the NASA Glenn Research Center for use in regener...
A series of electrically heated tube tests was performed at the NASA Glenn Research Center s Heated ...
Rocket-engine main combustion chamber liners are used to contain the burning of fuel and oxidizer an...
Porous metal sheet with controlled permeability was made by space winding and diffusion bonding fine...
To increase the lifetime of rocket combustion chambers, thermal barrier coatings (TBC) may be applie...
Continuous technological developments in the field of additive manufacturing (AM) have made this inn...