Abstract
The paper considers the results of an electron microscopy study of the VD1 alloy of the Al-Cu-Mg system after cold working and subsequent irradiation with a powerful pulsed ion beam (70% C+ + 30% H+, E = 180 keV) in the pulsed-periodic mode (t = 80 ns, f = 0.1 Hz, j = 200 A/cm2, F = 1-1014 cm-2) and under the conditions of the generation of only one pulse (t = 180 ns, j = 100 A/cm2, F = 2-1015 cm-2). It is established that this irradiation noticeably affects the microstructure of the cold-worked 3 mm thick sheets of VD1 alloy. The initial cellular dislocation structure transforms into a subgrain one. The intensity of structural transformations in the alloy increases with ion current density of a pulse. A similar transformation of a dislocation structure over the entire thickness of the sample is observed under irradiation with continuous Ar+ ion beams (E = 20-40 keV) with not high fluences (1015-1016 cm-2).
Highlights
IOP PublishingSeries: Materials Science and Engineering 110 (2016) 012102 doi:10.1088/1757-899X/110/1/012102
The nature of long-range effect under both continuous and pulsed ion implantation is still under investigation
The exposure of powerful ion beams on metal materials leads to changes in the structural state of its surface layers, the thickness of which exceeds the projective ion range by
Summary
Series: Materials Science and Engineering 110 (2016) 012102 doi:10.1088/1757-899X/110/1/012102. Effect of powerful pulsed and continuous ion beams on the AlCu-Mg alloy structure. N V Gushchina, F F Makhin'ko, V V Ovchinnikov , V I Gusel'nikov and G E Remnev
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