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A Journal of Russian Academy of Sciences
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IssuesArchive of Issues2012-5pp.533-537

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A.K. Belyaev, A.M. Polyanskiy, V.A. Polyanskiy, and Yu.A. Yakovlev, "Parametric Instability in Cyclic Loading as the Cause of Fracture of Hydrogenous Materials," Mech. Solids. 47 (5), 533-537 (2012)
Year 2012 Volume 47 Number 5 Pages 533-537
DOI 10.3103/S0025654412050068
Title Parametric Instability in Cyclic Loading as the Cause of Fracture of Hydrogenous Materials
Author(s) A.K. Belyaev (Institute for Problems in Mechanical Engineering, Russian Academy of Sciences, Bol'shoy pr-t 61, St. Petersburg, 199178 Russia, alexander.belyaev@vice.ipme.ru)
A.M. Polyanskiy ("Research & Development Company Electronic & Beam Technologies," Ltd. Bronevaya 6, St. Petersburg, 198188 Russia, info@electrobeamtech.com)
V.A. Polyanskiy (Saint-Petersburg State Polytechnical University, Polytekhnicheskaya 29, St. Petersburg, 195251 Russia, vapol@electronbeamtech.com)
Yu.A. Yakovlev ("Research & Development Company Electronic & Beam Technologies," Ltd. Bronevaya 6, St. Petersburg, 198188 Russia)
Abstract The paper presents experimental data showing that fatigue loading is accompanied by redistribution of the dissolved hydrogen concentration in the region of fatigue damage accumulation. A model description of this process as the manifestation of parametric instability of a two-continuum medium is given.
Keywords hydrogen brittleness, fatigue strength, fatigue, diffusion, two-continuum model
References
1.  Yu. S. Nechaev, "Micromechanisms of Influence of Small Hydrogen Additions on the Mechanical Properties of Metals and Alloys," Materialoved., No. 11, 40-45 (2001).
2.  W. Gorsky, "Theorie der Ordnungsprozesse und der Diffusion in Mischkristallen von CuAu," Sow. Phys., No. 8, 443-456 (1935).
3.  V. A. Polyanskiy, A. M. Polyanskiy, A. K. Belyaev, and Yu. A. Yakovlev, "Determination of Small Hydrogen Traps as Nucleus of Fatigue and Destruction," in Advances in Material Sciences, Ed. by D. Kuznetsov and O. N. Shubin (Albuquerque, New Mexico, 2009), pp. III-21-III-25.
4.  A. M. Polyanskii, V. A. Polyanskii, and Yu. A. Yakovlev, "Investigation of the Fatigue and Fracture Processes for Metallic Materials by the Method of Determining the Hydrogen Bond Energy in Solids," Deformats. Razrush. Materialov, No. 3, 39-43 (2009).
5.  A. K. Belyaev, V. A. Polyanskii, and Yu. A. Yakovlev "Stresses in a Tube Affected by Hydrogen," Acta Mech. 224 (3-4), 678-690 (2012).
6.  O. G. Kasatkin, "Specific Characteristics of Hydrogen Embrittlement of High-Strength Steels in Welding," Avtomatich. Svarka, No. 1, 17-22 (1994) [Paton Welding J. (Engl. Transl.)].
7.  V. V. Bolotin, Dynamic Stability of Elastic Systems (Gostekhizdat, Moscow, 1956) [in Russian].
Received 08 June 2012
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