Add to ORKGRadiators are an enabling technology for the human exploration and development of the moon and Mars. As standard components of the heat rejection subsystem of space vehicles, radiators are used to reject waste heat to space and/or a planetary environment. They are typically large components of the thermal control system for a space vehicle or human habitation facility, and in some cases safety factors are used to oversize them when the operating environment cannot be fully characterized. Over-sizing can impose significant weight and size penalties that might be prohibitive for future missions. Radiator performance depends on the size of the radiator surface, its emittance and absorptance, the radiator temperature, the effective sky temperat...
Background: Dust accumulation on surfaces of critical instruments has been a major concern during lu...
Context: The Radiation Assessment Detector (RAD) on the Mars Science Laboratory (MSL) has been measu...
We have designed and developed an in-vacuum dust deposition system specifically conceived to simulat...
Experiments were performed in which the effective emittance of three types of radiator Coatings was ...
An artificial mineral of the approximate elemental composition of Martian soil was manufactured, cru...
Simulated radiator surfaces made of arc-textured Cu and Nb-1 percent-Zr and ion beam textured graphi...
Many processes on planetary bodies are driven by their respective surface energy balance, and while ...
Mars is a dusty planet. Will dust accumulation on solar arrays be a problem for large solar power sy...
Martian dust has been identified as a potentially serious hazard to any manned Mars landing mission....
Dust accumulation on thermal radiator surfaces planned for lunar exploration will significantly redu...
The environment on the surface of Mars is different in several critical ways from the orbital enviro...
The Radiation Assessment Detector (RAD) was designed to characterize the radiation environment as “L...
After the high radiation environment and the low gravity field on Mars, dust is arguably the next bi...
We report the first long-term measurements of the radiation quality factor of energetic charged part...
Measurements of dust on the Mars surface and in its atmosphere will be made from several upcoming mi...
Background: Dust accumulation on surfaces of critical instruments has been a major concern during lu...
Context: The Radiation Assessment Detector (RAD) on the Mars Science Laboratory (MSL) has been measu...
We have designed and developed an in-vacuum dust deposition system specifically conceived to simulat...
Experiments were performed in which the effective emittance of three types of radiator Coatings was ...
An artificial mineral of the approximate elemental composition of Martian soil was manufactured, cru...
Simulated radiator surfaces made of arc-textured Cu and Nb-1 percent-Zr and ion beam textured graphi...
Many processes on planetary bodies are driven by their respective surface energy balance, and while ...
Mars is a dusty planet. Will dust accumulation on solar arrays be a problem for large solar power sy...
Martian dust has been identified as a potentially serious hazard to any manned Mars landing mission....
Dust accumulation on thermal radiator surfaces planned for lunar exploration will significantly redu...
The environment on the surface of Mars is different in several critical ways from the orbital enviro...
The Radiation Assessment Detector (RAD) was designed to characterize the radiation environment as “L...
After the high radiation environment and the low gravity field on Mars, dust is arguably the next bi...
We report the first long-term measurements of the radiation quality factor of energetic charged part...
Measurements of dust on the Mars surface and in its atmosphere will be made from several upcoming mi...
Background: Dust accumulation on surfaces of critical instruments has been a major concern during lu...
Context: The Radiation Assessment Detector (RAD) on the Mars Science Laboratory (MSL) has been measu...
We have designed and developed an in-vacuum dust deposition system specifically conceived to simulat...