Add to ORKGSpace environment effects on candidate materials for the solar sail film are determined. Polymers, including metallized polyimides that might be suitable solar radiation receivers, were exposed to combined proton and solar electromagnetic radiation. Each test sample was weighted, to simulate the tension on the polymer when it is stretched into near-planar shape while receiving solar radiation. Exposure rates up to 16 times that expected in Earth orbit were employed, to simulate near-sun solar sailing conditions. Sample appearance, elongation, and shrinkage were monitored, noted, and documented in situ. Thermosetting polyimides showed less degradation or visual change in appearance than thermoplastics
The Polymer Film Tensile Experiment (PFTE) was flown as part of Materials International Space Statio...
NASA anticipates launching the Next Generation Space Telescope (NGST) mission-- whose purpose is to ...
This Technical Memorandum documents the results from the Materials on International Space Station Ex...
Techniques for monitoring changes in preparation of solar sail materials resulting from space radiat...
A study is presented of the effect of radiation on polymers. It helps to estimate the impact of the ...
The literature search in the field of ultraviolet radiation effects that was conducted during the pr...
An exploratory program has been conducted, to irradiate some mature commercial and some experimental...
This cooperative agreement was intended to investigate the effects of a space environment on the pro...
Polymer matrix materials are candidates for use in large space antennas and space platforms that may...
The response of coated thin polymer films to ultraviolet (UV), electron and proton radiation simulta...
Understanding space environment induced degradation of spacecraft materials is essential when design...
Polymeric materials in low earth orbit will be exposed to a harmful environment mainly due to atomic...
A series of essentially colorless aromatic polyimide films was synthesized and characterized with th...
Commercial metallized polyimide or polyester films and hand-assembly techniques are acceptable for s...
Transparent polymer films are currently considered for use as solar concentrating lenses for spacecr...
The Polymer Film Tensile Experiment (PFTE) was flown as part of Materials International Space Statio...
NASA anticipates launching the Next Generation Space Telescope (NGST) mission-- whose purpose is to ...
This Technical Memorandum documents the results from the Materials on International Space Station Ex...
Techniques for monitoring changes in preparation of solar sail materials resulting from space radiat...
A study is presented of the effect of radiation on polymers. It helps to estimate the impact of the ...
The literature search in the field of ultraviolet radiation effects that was conducted during the pr...
An exploratory program has been conducted, to irradiate some mature commercial and some experimental...
This cooperative agreement was intended to investigate the effects of a space environment on the pro...
Polymer matrix materials are candidates for use in large space antennas and space platforms that may...
The response of coated thin polymer films to ultraviolet (UV), electron and proton radiation simulta...
Understanding space environment induced degradation of spacecraft materials is essential when design...
Polymeric materials in low earth orbit will be exposed to a harmful environment mainly due to atomic...
A series of essentially colorless aromatic polyimide films was synthesized and characterized with th...
Commercial metallized polyimide or polyester films and hand-assembly techniques are acceptable for s...
Transparent polymer films are currently considered for use as solar concentrating lenses for spacecr...
The Polymer Film Tensile Experiment (PFTE) was flown as part of Materials International Space Statio...
NASA anticipates launching the Next Generation Space Telescope (NGST) mission-- whose purpose is to ...
This Technical Memorandum documents the results from the Materials on International Space Station Ex...