Add to ORKGPolymeric materials have many attractive features such as light weight, high strength, and broad applicability in the form of films, fibers, and molded objects. In low earth orbit (LEO), these materials, when exposed on the exterior of the spacecraft, have the serious disadvantage of being susceptible to erosion by atomic oxygen (AO). AO is the most common chemical species at LEO altitudes. AO can be an extremely efficient oxidizing agent as was apparent from the extensive erosion of organic films exposed in STS missions. The mechanism for erosion involves the reaction of oxygen atoms at the surface of the substrate to form small molecular species. The susceptibility of polymeric materials varies with their chemical composition. Films with ...
Protection for polymeric surfaces is needed to make them durable in the low Earth orbital environmen...
The probability of atomic oxygen reacting with polymeric materials is orders of magnitude lower at t...
AbstractPolysiloxane/POSS hybrid coatings were deposited on Kapton substrate by copolymerizing epoxy...
At the altitudes of low-earth orbit (LEO), atomic oxygen (AO) is the most abundant chemical species....
Because of its high reactivity, atomic oxygen causes surface erosion on polymeric materials. althoug...
Several experimental fluorine and silicon-containing polymers in film form were exposed to low Earth...
Polymer-matrix composites are ideally suited for space vehicles because of high strength to weight r...
Atomic oxygen (AO) attacks carbon-fiber reinforcing polymers on the surfaces of spacecraft in low Ea...
Atomic oxygen, formed in Earth s thermosphere, interacts readily with many materials on spacecraft f...
Polysiloxane-polyimide films are of interest as a replacement for polyimide Kapton in the Space Stat...
As part of the Materials on The International Space Station Experiment (MISSE), aromatic polymers co...
Atomic-oxygen erosion on spacecraft in low Earth orbit is an issue which is becoming increasingly im...
grantor: University of TorontoWithin this study, four developments are presented. First, t...
Polymeric materials in low earth orbit will be exposed to a harmful environment mainly due to atomic...
Atomic oxygen is formed in the low Earth orbital environment (LEO) by photo dissociation of diatomic...
Protection for polymeric surfaces is needed to make them durable in the low Earth orbital environmen...
The probability of atomic oxygen reacting with polymeric materials is orders of magnitude lower at t...
AbstractPolysiloxane/POSS hybrid coatings were deposited on Kapton substrate by copolymerizing epoxy...
At the altitudes of low-earth orbit (LEO), atomic oxygen (AO) is the most abundant chemical species....
Because of its high reactivity, atomic oxygen causes surface erosion on polymeric materials. althoug...
Several experimental fluorine and silicon-containing polymers in film form were exposed to low Earth...
Polymer-matrix composites are ideally suited for space vehicles because of high strength to weight r...
Atomic oxygen (AO) attacks carbon-fiber reinforcing polymers on the surfaces of spacecraft in low Ea...
Atomic oxygen, formed in Earth s thermosphere, interacts readily with many materials on spacecraft f...
Polysiloxane-polyimide films are of interest as a replacement for polyimide Kapton in the Space Stat...
As part of the Materials on The International Space Station Experiment (MISSE), aromatic polymers co...
Atomic-oxygen erosion on spacecraft in low Earth orbit is an issue which is becoming increasingly im...
grantor: University of TorontoWithin this study, four developments are presented. First, t...
Polymeric materials in low earth orbit will be exposed to a harmful environment mainly due to atomic...
Atomic oxygen is formed in the low Earth orbital environment (LEO) by photo dissociation of diatomic...
Protection for polymeric surfaces is needed to make them durable in the low Earth orbital environmen...
The probability of atomic oxygen reacting with polymeric materials is orders of magnitude lower at t...
AbstractPolysiloxane/POSS hybrid coatings were deposited on Kapton substrate by copolymerizing epoxy...