INFLUENCE OF INITIAL DISLOCATION STRUCTURE ON POINT AND MICROSCOPIC DEFECTS KINETIC UNDER IRRADIATION



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Abstract

This work is aimed for justification of quantitative effect of radiation defect concentration decreasing in materials depending on density of edge dislocation which are their outlet. The results of defect kinetics modeling with taking into account their recombination on dislocation loops, edge dislocations and pores are given. The summery of this work is useful in the frame of solving problem of decreasing radiation swelling and material properties degradation during neutron irradiation.

About the authors

D. A. Kornilov

JSC “SSC RIAR”, 9, Zapadnoye Shosse, Dimitrovgrad, Ulyanovsk region, 433510, Russian Federation.

Author for correspondence.
Email: morenov.sv@ssau.ru

V. M. Kosenkov

JSC “SSC RIAR”, 9, Zapadnoye Shosse, Dimitrovgrad, Ulyanovsk region, 433510, Russian Federation.

Email: morenov.sv@ssau.ru

P. P. Silantev

JSC “SSC RIAR”, 9, Zapadnoye Shosse, Dimitrovgrad, Ulyanovsk region, 433510, Russian Federation.

Email: morenov.sv@ssau.ru

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Copyright (c) 2016 Kornilov D.A., Kosenkov V.M., Silantev P.P.

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