Electrical Conductors at Elevated Temperatures
Report Number: ASD TDR 62-481
Author(s): Fuschillo, Nicholas, Lindberg, Russel A.
Corporate Author(s): Melpar, Inc.
Laboratory: Directorate of Materials and Processes
Date of Publication: 1963-01
Pages: 452
Contract: AF (616)-8386
DoD Project: 7371
DoD Task: 737102
Identifier: AD0299020
Abstract:
Existing and theory concerning the electrical conductivity, oxidation resistance and mechanical properties of1. Pure Metals2. Metallic Alloys3. Metallic Binary Compoundsare presented and analyzed to determine the best approach to developing improved electrical conductors for use at temperatures up to 700 degrees and 1200 degrees C. Recommendations are made for experimental research and development in pure metals, metallic alloys, and metallic binary compounds. Considerable data has been collected and systematized in tables and graphs on the electrical, mechanical, and oxidation-resistant characteristics of these conductors. This should enable the design engineer to select the best electrical conductor to suit specific requirements of temperature, oxidation or mechanical environment, and cost.
Provenance: Lockheed Martin Missiles & Fire Control
Author(s): Fuschillo, Nicholas, Lindberg, Russel A.
Corporate Author(s): Melpar, Inc.
Laboratory: Directorate of Materials and Processes
Date of Publication: 1963-01
Pages: 452
Contract: AF (616)-8386
DoD Project: 7371
DoD Task: 737102
Identifier: AD0299020
Abstract:
Existing and theory concerning the electrical conductivity, oxidation resistance and mechanical properties of1. Pure Metals2. Metallic Alloys3. Metallic Binary Compoundsare presented and analyzed to determine the best approach to developing improved electrical conductors for use at temperatures up to 700 degrees and 1200 degrees C. Recommendations are made for experimental research and development in pure metals, metallic alloys, and metallic binary compounds. Considerable data has been collected and systematized in tables and graphs on the electrical, mechanical, and oxidation-resistant characteristics of these conductors. This should enable the design engineer to select the best electrical conductor to suit specific requirements of temperature, oxidation or mechanical environment, and cost.
Provenance: Lockheed Martin Missiles & Fire Control