Add to ORKGEvaluation of high temperature, space-vacuum performance of selected electrical materials and components, high temperature capacitor development, and evaluation, construction, and endurance testing of compression sealed pyrolytic boron nitride slot insulation are described. The first subject above covered the aging evaluation of electrical devices constructed from selected electrical materials. Individual materials performances were also evaluated and reported. The second subject included study of methods of improving electrical performance of pyrolytic boron nitride capacitors. The third portion was conducted to evaluate the thermal and electrical performance of pyrolytic boron nitride as stator slot liner material under varied temperature...
High temperature magnetic and electric materials with satisfactory strength for rotor us
Space power systems and components are often required to operate efficiently and reliably in harsh e...
Thermal conductivity tests of high performance insulation for long term, space storage of cryogenic ...
The results are summarized of a research program on electrical materials for advanced space electric...
High temperature stability and electrical properties of pyrolytic boron nitride capacitor
Development of high temperature electrical materials and testing in simulated space environmen
A high-temperature statorette, consisting of an iron-27 percent cobalt magnetic lamination stack and...
A high temperature electronics program at NASA Lewis Research Center focuses on dielectric and insul...
High temperature magnetic alloys, dielectric materials, and lightweight capacitor design for advance...
Development and evaluation of high temperature magnetic and electrical materials for advanced space ...
Magnetic materials for high temperature operation, high temperature capacitor feasibility, and bore ...
Computer program modification, high temperature materials, and insulation structures for development...
Electrical, mechanical, and thermo-physical properties of conductor and insulation materials for app...
A program to develop a special high energy density, high power transfer capacitor to operate at freq...
Magnetic and electrical materials capable of operation in 800 deg F to 1600 deg F temperature range ...
High temperature magnetic and electric materials with satisfactory strength for rotor us
Space power systems and components are often required to operate efficiently and reliably in harsh e...
Thermal conductivity tests of high performance insulation for long term, space storage of cryogenic ...
The results are summarized of a research program on electrical materials for advanced space electric...
High temperature stability and electrical properties of pyrolytic boron nitride capacitor
Development of high temperature electrical materials and testing in simulated space environmen
A high-temperature statorette, consisting of an iron-27 percent cobalt magnetic lamination stack and...
A high temperature electronics program at NASA Lewis Research Center focuses on dielectric and insul...
High temperature magnetic alloys, dielectric materials, and lightweight capacitor design for advance...
Development and evaluation of high temperature magnetic and electrical materials for advanced space ...
Magnetic materials for high temperature operation, high temperature capacitor feasibility, and bore ...
Computer program modification, high temperature materials, and insulation structures for development...
Electrical, mechanical, and thermo-physical properties of conductor and insulation materials for app...
A program to develop a special high energy density, high power transfer capacitor to operate at freq...
Magnetic and electrical materials capable of operation in 800 deg F to 1600 deg F temperature range ...
High temperature magnetic and electric materials with satisfactory strength for rotor us
Space power systems and components are often required to operate efficiently and reliably in harsh e...
Thermal conductivity tests of high performance insulation for long term, space storage of cryogenic ...