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Tensile Fatigue Testing at Temperatures Down to 20°K

  • D. W. Chamberlain
Part of the Advances in Cryogenic Engineering book series (ACRE, volume 9)

Abstract

Until recently, data on the fatigue behavior of materials at cryogenic temperatures have been sparse, and information of this type for nonmetallic materials has been practically nonexistent. A preliminary search of published data revealed only a limited amount of information on fatigue characteristics of materials at cryogenic temperatures. Most of these data have been derived from flexural fatigue tests, and apply almost exclusively to metals.

Keywords

Cryogenic Temperature Rubber Sleeve Tensile Fatigue Fatigue Machine Cryogenic Engineer 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

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    D. N. Gideon, R. J. Favor, H. J. Grover, and G. M. McClure, in Advances in Cryogenic Engineering, Vol. 7, Plenum Press, New York (1962), p. 503.Google Scholar
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    F. W. DeMoney and G. C. Wolfer, in Advances in Cryogenic Engineering, Vol. 6, Plenum Press, New York (1961), p. 590.Google Scholar
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    J. G. Kaufman and E. W. Johnson, in Advances in Cryogenic Engineering, Vol. 6, Plenum Press, New York (1961), p. 637.Google Scholar
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    F. R. Schwarteberg and R. D. Keys, Private communication.Google Scholar
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    N. O. Brink, “Determination of the Performance of Plastic Laminates at Cryogenic Temperatures,” Technical Documentary Report No. ASD-TRD-62–794.Google Scholar

Copyright information

© Springer Science+Business Media New York 1964

Authors and Affiliations

  • D. W. Chamberlain
    • 1
  1. 1.Narmco Research and DevelopmentA Division of Telecomputing CorporationSan DiegoUSA

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