Add to ORKGSecond surface silver microsheet glass concentrators are being developed for potential use in future solar dynamic space power systems. Traditional concentrators are aluminum honeycomb sandwich composites with either aluminum or graphite epoxy face sheets, where a reflective aluminum layer is deposited onto an organic leveling layer on the face sheet. To protect the underlying layers, a SiO2 layer is applied on top of the aluminum reflective layer. These concentrators may be vulnerable to atomic oxygen degradation due to possible atomic oxygen attack of the organic layers at defect sites in the protective and reflective coatings. A second surface microsheet glass concentrator would be inherently more atomic oxygen durable than these first s...
Candidate atomic oxygen protective coatings for long-term low Earth orbit (LEO) spacecraft were eval...
Atomic-oxygen erosion on spacecraft in low Earth orbit is an issue which is becoming increasingly im...
Silicones have been widely used on spacecraft as potting compounds, adhesives, seals, gaskets, hydro...
Silver mirror samples with protective coatings were subjected to a stream of 27 microns alumina part...
Thin aluminum films were considered for use as a reflective surface for solar collectors on orbiting...
Solar dynamic power system mirrors for use on space station and other spacecraft flown in low Earth ...
Low Earth orbital atomic oxygen is capable of eroding most polymeric materials typically used on spa...
The effects of atomic oxygen (AO) on materials in aerospace environments are examined. Materials are...
Amorphous silicon dioxide and aluminum oxide films are being considered by NASA for application on l...
The results of an experimental study of the reaction kinetics of silver with atomic oxygen in 10 deg...
A system for the vacuum deposition of atomic-oxygen durable coatings for reflective solar dynamic po...
Surfaces on the leading edge of spacecraft in low Earth orbit (e.g., surface facing the velocity dir...
Understanding of the basic processes of atomic oxygen interaction is currently at a very elementary ...
Power degradation in the solar cells was consistent with the exposure environment and appears to be ...
Atomic oxygen in the low-Earth-orbital environment oxidizes SiOx protected polyimide Kapton solar ar...
Candidate atomic oxygen protective coatings for long-term low Earth orbit (LEO) spacecraft were eval...
Atomic-oxygen erosion on spacecraft in low Earth orbit is an issue which is becoming increasingly im...
Silicones have been widely used on spacecraft as potting compounds, adhesives, seals, gaskets, hydro...
Silver mirror samples with protective coatings were subjected to a stream of 27 microns alumina part...
Thin aluminum films were considered for use as a reflective surface for solar collectors on orbiting...
Solar dynamic power system mirrors for use on space station and other spacecraft flown in low Earth ...
Low Earth orbital atomic oxygen is capable of eroding most polymeric materials typically used on spa...
The effects of atomic oxygen (AO) on materials in aerospace environments are examined. Materials are...
Amorphous silicon dioxide and aluminum oxide films are being considered by NASA for application on l...
The results of an experimental study of the reaction kinetics of silver with atomic oxygen in 10 deg...
A system for the vacuum deposition of atomic-oxygen durable coatings for reflective solar dynamic po...
Surfaces on the leading edge of spacecraft in low Earth orbit (e.g., surface facing the velocity dir...
Understanding of the basic processes of atomic oxygen interaction is currently at a very elementary ...
Power degradation in the solar cells was consistent with the exposure environment and appears to be ...
Atomic oxygen in the low-Earth-orbital environment oxidizes SiOx protected polyimide Kapton solar ar...
Candidate atomic oxygen protective coatings for long-term low Earth orbit (LEO) spacecraft were eval...
Atomic-oxygen erosion on spacecraft in low Earth orbit is an issue which is becoming increasingly im...
Silicones have been widely used on spacecraft as potting compounds, adhesives, seals, gaskets, hydro...