Influence of heat treatment on the corrosion cracking of titanium alloys and retarded fracture of them in air

  • L. M. Komissarenko
  • V. V. Lunin
  • V. A. Marichev


Titanium Heat Treatment Titanium Alloy Retarded Fracture 
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Literature cited

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    V. A. Marichev, I. L. Rozenfel'd, and V. V. Lunin, “Subcritical crack growth in titanium alloys in air,” Zashch. Met., No. 1, 14–20 (1980).Google Scholar
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    R. K. Melekhov, The Corrosion Cracking of Titanium and Aluminum Alloys [in Russian], Tekhnika, Kiev (1979).Google Scholar
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    S. G. Grazunov and V. N. Moiseev, Constructional Titanium Alloys [in Russian], Metallurgiya, Moscow (1974).Google Scholar
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    B. K. Vul'f, The Technology of Heat Treatment of Semifinished Products and Parts of Titanium Alloys [in Russian], Mashinostroenie, Moscow (1972).Google Scholar
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    V. V. Lunin and V. A. Marichev, “New methods of studying the corrosion cracking of constructional materials,” Fiz-Khim. Mekh. Mater., No. 1, 23–28 (1980).Google Scholar
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    O. N. Romaniv, G. N. Nikiforchin, and H. A. Deev, “Kinetic effects in the mechanics of retarded fracture of high-strength alloys,” Fiz.-Khim. Mekh. Mater., No. 14, 9–24 (1976).Google Scholar
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    W. Brown and J. Srawley, “Plane-strain fracture toughness tests of high strength metallic materials,” ASTM, Philadelphia.Google Scholar

Copyright information

© Plenum Publishing Corporation 1982

Authors and Affiliations

  • L. M. Komissarenko
    • 1
  • V. V. Lunin
    • 1
  • V. A. Marichev
    • 1
  1. 1.Institute of Physical ChemistryAcademy of Sciences of the USSRMoscow

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