Effect Of Basic Physical Parameters On Engineering Properties Of Intermetallic Compounds
Report Number: WADD TR 60-184 Part II
Author(s): Westbrook, J. H., Wood, D. L.
Corporate Author(s): General Electric Research Laboratory
Laboratory: Directorate of Materials and Processes
Date of Publication: 1961-09
Pages: 73
Contract: AF 33(616)-6614
DoD Project: 7350
DoD Task: 73500
Identifier: AD0268912
Abstract:
The tensile behavior of the CsCl structure compound AgMg are extensively documented in terms of strain, strain rate, temperature, grain size, composition, and metallurgical processing treatment. Three regimes of deformation behavior are observed: low temperatures, intermediate temperatures, and high temperatures. In each of these regimes different deformation processes operate. Specific findings have practical as well as scientific import. Certain exploratory studies on other intermetallics are also reported.
Provenance: Lockheed Martin Missiles & Fire Control
Author(s): Westbrook, J. H., Wood, D. L.
Corporate Author(s): General Electric Research Laboratory
Laboratory: Directorate of Materials and Processes
Date of Publication: 1961-09
Pages: 73
Contract: AF 33(616)-6614
DoD Project: 7350
DoD Task: 73500
Identifier: AD0268912
Abstract:
The tensile behavior of the CsCl structure compound AgMg are extensively documented in terms of strain, strain rate, temperature, grain size, composition, and metallurgical processing treatment. Three regimes of deformation behavior are observed: low temperatures, intermediate temperatures, and high temperatures. In each of these regimes different deformation processes operate. Specific findings have practical as well as scientific import. Certain exploratory studies on other intermetallics are also reported.
Provenance: Lockheed Martin Missiles & Fire Control