Elevated Temperature Dynamic Elastic Moduli Of Various Metallic Materials
This report has yet to be scanned by Contrails staff
Report Number: WADD TR 60-438
Author(s): Hill, W. H., Shimmin, K. D.
Corporate Author(s): Metals and Ceramics Laboratory
Laboratory: Materials Central
Date of Publication: 1961-03
Pages: 75
Contract: Laboratory Research - No Contract
DoD Project: 7351 - Metallic Materials
DoD Task: 73521
Identifier: AD0264825
Abstract:
The dynamic elastic moduli of 40 metals and alloys of engineering interest have been determined at room and elevated temperatures. Modulus determinations were based upon a relation between the speed of sound in a material and its elastic modulus. A specimen of the material was excited electrostatically and its resonant frequency determined. Knowing the geometry of the specimen, the dynamic elastic modulus was calculated. Room temperature comparisons of dynamic with static moduli were made in most instances using material from the same bar. The results of dynamic elastic modulus determinations are graphically presented.
Provenance: Lockheed Martin Missiles & Fire Control
Author(s): Hill, W. H., Shimmin, K. D.
Corporate Author(s): Metals and Ceramics Laboratory
Laboratory: Materials Central
Date of Publication: 1961-03
Pages: 75
Contract: Laboratory Research - No Contract
DoD Project: 7351 - Metallic Materials
DoD Task: 73521
Identifier: AD0264825
Abstract:
The dynamic elastic moduli of 40 metals and alloys of engineering interest have been determined at room and elevated temperatures. Modulus determinations were based upon a relation between the speed of sound in a material and its elastic modulus. A specimen of the material was excited electrostatically and its resonant frequency determined. Knowing the geometry of the specimen, the dynamic elastic modulus was calculated. Room temperature comparisons of dynamic with static moduli were made in most instances using material from the same bar. The results of dynamic elastic modulus determinations are graphically presented.
Provenance: Lockheed Martin Missiles & Fire Control