MORPHOLOGICAL CHARACTERISTICS OF CRATERS ON THE SURFACE OF AA1933 ALUMINUM ALLOY IRRADIATED BY PULSED ELECTRON BEAM-Reference-Cited by-同舟云学术

MORPHOLOGICAL CHARACTERISTICS OF CRATERS ON THE SURFACE OF AA1933 ALUMINUM ALLOY IRRADIATED BY PULSED ELECTRON BEAM

Published:2023-04-11 Issue: Volume: Page:24-28
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Container-title:Problems of Atomic Science and Technology
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Author:

Bryukhovetsky V.V.,Lytvynenko V.V.,Lonin Yu.F.,Myla D.E.,Ponomarev A.G.,Uvarov V.T.

Abstract

Irradiation of an industrial aluminum alloy AA1933 with an intense pulsed electron beam with particle energy of 0.35 MeV, a beam current of 2.0 kA, a pulse duration of 5 μs, and a beam diameter of 3 cm results in the formation of a surface layer with a modified structural-phase state. A characteristic feature of the irradiated surface is the presence of cracks and craters on it. This study features the types and morphology of craters on the surface of aluminum alloy AA1933 formed as a result of irradiation by a pulsed electron beam. The study includes figures of a variety of crater types. The distribution of craters according to size and crater density on the irradiated surface was examined. The study also provides for the discussion of the significance of these observations for the sake of a better understanding of the mechanisms of crater formation during irradiation by pulsed electron beams.

Publisher

Problems of Atomic Science and Technology

Subject

Applied Mathematics,General Mathematics,General Medicine,Pulmonary and Respiratory Medicine,Pediatrics, Perinatology, and Child Health,General Medicine,General Chemistry,General Medicine,General Medicine,General Medicine,Electrical and Electronic Engineering,Atomic and Molecular Physics, and Optics,General Earth and Planetary Sciences,General Environmental Science,General Materials Science

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1. RESIDUA STRESSES AND DEFORMATION MECHANISMS IN THE SURFACE LAYER OF AA1933 ALUMINUM ALLOY INDUCED BY HIGH-CURRENT PULSED ELECTRON BEAM;Problems of Atomic Science and Technology;2024-04-11