Effect of Structural and Phase Changes under Relativistic Electron Pulsed Beam Irradiation on the Aluminum Alloys Micro-hardness

Abstract: The paper studies the distinctive features of micro-hardness value changes in the zone of industrial aluminum alloy 1933 and alloy 1380 irradiated by the relativistic electron beam. The surface layer was modified under the relativistic electron beam injected along with the equal energy parameters. However, we have to claim that some physical and technological properties of the irradiated alloys layer came with some differences. The modified layer micro-hardness increased over 30% in 1933 aluminum alloy and dec… Show more

“…Surface modification of materials by concentrated energy flows is successfully used for technological purposes to improve the properties of their surface and near-surface layers [1][2][3][4][5][6][7][8][9][10][11][12]. Surface treatment of solids by high-current pulsed electron beams (HCPEB) significantly affects their physical and mechanical properties [1-10].…”

Morphological Characteristics of Craters on the Surface of Aa1933 Aluminum Alloy Irradiated by Pulsed Electron Beam

“…Surface modification of materials by concentrated energy flows is successfully used for technological purposes to improve the properties of their surface and near-surface layers [1][2][3][4][5][6][7][8][9][10][11][12]. Surface treatment of solids by high-current pulsed electron beams (HCPEB) significantly affects their physical and mechanical properties [1-10].…”

Morphological Characteristics of Craters on the Surface of Aa1933 Aluminum Alloy Irradiated by Pulsed Electron Beam

The structural phase state and strength properties of the surface layer of AA6111-T4 aluminum alloy irradiated by the high-current electron beam

Formation mechanism of craters on the surface of AA6111 aluminum alloy irradiated by quasi-relativistic high-current electron beam