Modification of Aluminum Alloy 1933 by the High-Current Electron Beam Irradiation

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Title	Modification of Aluminum Alloy 1933 by the High-Current Electron Beam Irradiation
Authors	Kobets, A.G. Horodek, P.R. Lytvynenko, V.V. Lon, U.F. Ponomarev, A.G. Startsev, O.A. Uvarov, V.T.
ORCID
Keywords	Aluminum Electron beam Ablation
Type	Article
Date of Issue	2014
URI	http://essuir.sumdu.edu.ua/handle/123456789/37187
Publisher	Sumy State University
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Citation	Proc. NAP 3, 02MAN11 (2014)
Abstract	Modification of the wrought aluminum alloy 1933 through irradiation by the intense microsecond relativistic hollow electron beam was studied. Fracture mechanisms for both irradiated and non-irradiated samples, changes in the structure and chemical composition were investigated. The thermal model describing the beam-metal interaction was developed based on the hyperbolic relaxation heat transfer equation, weakly coupled theory of thermoelasticity and Stefan problem. We used the finite difference method to perform calculations according to this model. We determined experimentally as well as numerically the areas of modified and non-irradiated material, localized the quenched, heat-affected and shock-wave-affected zones.
Appears in Collections:	Наукові видання (ЕлІТ)