Add to ORKGTo test and evaluate suitability of materials for use in space power systems and related space and commercial applications, and to achieve sufficient understanding of the mechanisms by which, the materials perform in their intended applications. Materials and proposed applications included but were not limited to: Improved anodes for lithium ion batteries, highly-transparent arc-proof solar array coatings, and improved surface materials for solar dynamic concentrators and receivers. Cooperation and interchange of data with industrial companies as appropriate
Lithium anodes, inorganic and organic cathodes, vacuum-distilled solvents, and methods for sintering...
The value of a passive, maintenance-free, renewable energy source was apparent in the early days of ...
High temperature magnetic alloys, dielectric materials, and lightweight capacitor design for advance...
Useful and informative results were obtained on virtually all materials investigated. For example, t...
The Lewis/OAST program for the development of Component Technology for Space Power Systems is descri...
A brief overview of NASA supported research on electronic materials is presented to the Electrical M...
Electrochemical research and development - high energy and high power density devices for spacecraft...
The goal of the space flight program at the Center for Commercial Development of Space (CCDS)--Mater...
NASA's missions to explore our world, solar system, galaxy and universe presents extraordinary compl...
Space power requirements for future NASA and other U.S. missions will range from a few kilowatts to ...
Human missions to Near Earth Objects, such as asteroids, planets, moons, liberation points, and orbi...
Materials technology requirements pertinent to structures, power, and propulsion for future space mi...
Space environments place tremendous demands on materials that must perform with exceptional reliabil...
Reported here is a series of studies which examine several potential catalysts and electrodes for so...
The military spacecraft power subsystem design requirements, developments goals, and planned technol...
Lithium anodes, inorganic and organic cathodes, vacuum-distilled solvents, and methods for sintering...
The value of a passive, maintenance-free, renewable energy source was apparent in the early days of ...
High temperature magnetic alloys, dielectric materials, and lightweight capacitor design for advance...
Useful and informative results were obtained on virtually all materials investigated. For example, t...
The Lewis/OAST program for the development of Component Technology for Space Power Systems is descri...
A brief overview of NASA supported research on electronic materials is presented to the Electrical M...
Electrochemical research and development - high energy and high power density devices for spacecraft...
The goal of the space flight program at the Center for Commercial Development of Space (CCDS)--Mater...
NASA's missions to explore our world, solar system, galaxy and universe presents extraordinary compl...
Space power requirements for future NASA and other U.S. missions will range from a few kilowatts to ...
Human missions to Near Earth Objects, such as asteroids, planets, moons, liberation points, and orbi...
Materials technology requirements pertinent to structures, power, and propulsion for future space mi...
Space environments place tremendous demands on materials that must perform with exceptional reliabil...
Reported here is a series of studies which examine several potential catalysts and electrodes for so...
The military spacecraft power subsystem design requirements, developments goals, and planned technol...
Lithium anodes, inorganic and organic cathodes, vacuum-distilled solvents, and methods for sintering...
The value of a passive, maintenance-free, renewable energy source was apparent in the early days of ...
High temperature magnetic alloys, dielectric materials, and lightweight capacitor design for advance...