Add to ORKGPolysiloxane-polyimide films are of interest as a replacement for polyimide Kapton in the Space Station Freedom solar array blanket. The blanket provides the structural support for the solar cells as well as providing transport of heat away from the back of the cells. Polyimide Kapton would be an ideal material to use; however, its high rate of degradation due to attack by atomic oxygen in low Earth orbit, at the altitudes Space Station Freedom will fly, is of such magnitude that if left unprotected, the blanket will undergo structural failure in much less than the desired 15 year operating life. Polysiloxane-polyimide is of interest as a replacement material because it should from its own protective silicon dioxide coating upon exposure to...
Polymeric materials in low earth orbit will be exposed to a harmful environment mainly due to atomic...
grantor: University of TorontoWithin this study, four developments are presented. First, t...
As part of the Materials on The International Space Station Experiment (MISSE), aromatic polymers co...
The photovoltaic (PV) power system for Space Station Freedom (SSF) uses solar array blankets which p...
Experimental results are presented on the erosion characteristics of the polyimide Kapton H, which s...
Diverse polymeric materials, including several variations of Kapton, were flown on STS-46 as part of...
At the altitudes of low-earth orbit (LEO), atomic oxygen (AO) is the most abundant chemical species....
Ion beam sputter-deposited thin films of Al2O3, SiO2, and a codeposited mixture of predominantly SiO...
The probability of atomic oxygen reacting with polymeric materials is orders of magnitude lower at t...
Abstract: Real-time measurement of the erosion rate of a commercially available Si-containing polyim...
Atomic-oxygen erosion on spacecraft in low Earth orbit is an issue which is becoming increasingly im...
Polymeric materials have many attractive features such as light weight, high strength, and broad app...
Understanding the behavior of polymeric materials when exposed to the low-Earth-orbit (LEO) environm...
Kapton polyimide oxidizes at significant rates (4.3x10(-24) gram/incident oxygen atom) when exposed ...
Protection for polymeric surfaces is needed to make them durable in the low Earth orbital environmen...
Polymeric materials in low earth orbit will be exposed to a harmful environment mainly due to atomic...
grantor: University of TorontoWithin this study, four developments are presented. First, t...
As part of the Materials on The International Space Station Experiment (MISSE), aromatic polymers co...
The photovoltaic (PV) power system for Space Station Freedom (SSF) uses solar array blankets which p...
Experimental results are presented on the erosion characteristics of the polyimide Kapton H, which s...
Diverse polymeric materials, including several variations of Kapton, were flown on STS-46 as part of...
At the altitudes of low-earth orbit (LEO), atomic oxygen (AO) is the most abundant chemical species....
Ion beam sputter-deposited thin films of Al2O3, SiO2, and a codeposited mixture of predominantly SiO...
The probability of atomic oxygen reacting with polymeric materials is orders of magnitude lower at t...
Abstract: Real-time measurement of the erosion rate of a commercially available Si-containing polyim...
Atomic-oxygen erosion on spacecraft in low Earth orbit is an issue which is becoming increasingly im...
Polymeric materials have many attractive features such as light weight, high strength, and broad app...
Understanding the behavior of polymeric materials when exposed to the low-Earth-orbit (LEO) environm...
Kapton polyimide oxidizes at significant rates (4.3x10(-24) gram/incident oxygen atom) when exposed ...
Protection for polymeric surfaces is needed to make them durable in the low Earth orbital environmen...
Polymeric materials in low earth orbit will be exposed to a harmful environment mainly due to atomic...
grantor: University of TorontoWithin this study, four developments are presented. First, t...
As part of the Materials on The International Space Station Experiment (MISSE), aromatic polymers co...