Regularities in localization of plastic flow upon electrolytic hydrogenation of an iron bcc-alloy

Abstract

The impact of implanted hydrogen atoms on mechanical properties and characteristics of plastic-flow localization upon tensile stresses of the polycrystalline Fe-0.07 wt % C alloy is studied. Using the method of double-exposure speckle photography, we identified the main types and parameters of plastic-flow localization at different stages of strain hardening as a result of electrolytic saturation in a three-electrode electrochemical cell at a constant controlled cathodic potential.

Original language	English
Pages (from-to)	211-214
Number of pages	4
Journal	Technical Physics Letters
Volume	40
Issue number	3
DOIs	https://doi.org/10.1134/S1063785014030043
Publication status	Published - 1 Jan 2014

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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10.1134/S1063785014030043

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Barannikova, S. A., Nadezhkin, M. V., Lunev, A. G., Gorbatenko, V. V., & Zuev, L. B. (2014). Regularities in localization of plastic flow upon electrolytic hydrogenation of an iron bcc-alloy. Technical Physics Letters, 40(3), 211-214. https://doi.org/10.1134/S1063785014030043

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abstract = "The impact of implanted hydrogen atoms on mechanical properties and characteristics of plastic-flow localization upon tensile stresses of the polycrystalline Fe-0.07 wt % C alloy is studied. Using the method of double-exposure speckle photography, we identified the main types and parameters of plastic-flow localization at different stages of strain hardening as a result of electrolytic saturation in a three-electrode electrochemical cell at a constant controlled cathodic potential.",

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AU - Zuev, L. B.

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AB - The impact of implanted hydrogen atoms on mechanical properties and characteristics of plastic-flow localization upon tensile stresses of the polycrystalline Fe-0.07 wt % C alloy is studied. Using the method of double-exposure speckle photography, we identified the main types and parameters of plastic-flow localization at different stages of strain hardening as a result of electrolytic saturation in a three-electrode electrochemical cell at a constant controlled cathodic potential.

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