Add to ORKGZinc oxide-potassium silicate thermal coating tested under various vacuum, temperature, solar electromagnetic, and proton environments to determine their effects on solar absorptanc
Mechanisms of recovery of radiation damaged silicate treated zinc oxide thermal control coating
Using zinc orthotitanate-pigmented potassium silicate paints for thermal control surface coating
Space stable thermal control surface coatings - inorganic pigments and ultraviolet photolysis of met...
In situ reflectometer for determining stability of thermal control coatings exposed to combined vacu...
Environmental effects of charged particle and simulated solar electromagnetic radiation on optical p...
Thermal control coatings with high thermal emittance and low solar absorptance are needed for Space ...
Thermal stability of double zirconium silicate pigment coatings, and of potassium silicate treated z...
Many different passive thermal control materials were flown as part of the Materials on Internationa...
Solar absorptance and emittance of candidate zinc oxides/silicone and zinc oxide/potassium silicate ...
Thermal control coating degradation under vacuum and ultraviolet radiation by chemical change of pho...
The Air Force Space and Missile Systems Center and Wright Laboratory Materials Directorate (WL/ML) h...
Evaluation of aluminum silicate - potassium silicate, and zinc oxide - potassium silicate emissive c...
Space simulation tests on temperature control, inorganic and silicone coatings, zinc titanate pigmen...
Development of stable thermal control coatings with low solar absorptance to infrared emittance rati
The preparation and evaluation of zinc orthotitanate and of several new pigments and the environment...
Mechanisms of recovery of radiation damaged silicate treated zinc oxide thermal control coating
Using zinc orthotitanate-pigmented potassium silicate paints for thermal control surface coating
Space stable thermal control surface coatings - inorganic pigments and ultraviolet photolysis of met...
In situ reflectometer for determining stability of thermal control coatings exposed to combined vacu...
Environmental effects of charged particle and simulated solar electromagnetic radiation on optical p...
Thermal control coatings with high thermal emittance and low solar absorptance are needed for Space ...
Thermal stability of double zirconium silicate pigment coatings, and of potassium silicate treated z...
Many different passive thermal control materials were flown as part of the Materials on Internationa...
Solar absorptance and emittance of candidate zinc oxides/silicone and zinc oxide/potassium silicate ...
Thermal control coating degradation under vacuum and ultraviolet radiation by chemical change of pho...
The Air Force Space and Missile Systems Center and Wright Laboratory Materials Directorate (WL/ML) h...
Evaluation of aluminum silicate - potassium silicate, and zinc oxide - potassium silicate emissive c...
Space simulation tests on temperature control, inorganic and silicone coatings, zinc titanate pigmen...
Development of stable thermal control coatings with low solar absorptance to infrared emittance rati
The preparation and evaluation of zinc orthotitanate and of several new pigments and the environment...
Mechanisms of recovery of radiation damaged silicate treated zinc oxide thermal control coating
Using zinc orthotitanate-pigmented potassium silicate paints for thermal control surface coating
Space stable thermal control surface coatings - inorganic pigments and ultraviolet photolysis of met...