2014
DOI: 10.3103/s106287381406015x
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Using a wide-aperture argon ion beam to finish the outer surfaces of tubular samples

Abstract: INTRODUCTIONTrends in the development of modern nuclear power engineering require an increase in the efficiency of using nuclear fuel, placing new demands on the already strict conditions for the materials employed in nuclear technology [1]. The shells of fuel elements are some of the most important elements of an active reac tor zone. The material capabilities of the shells directly affect the operational efficiency and safety of thenu clear reactor. A whole set of demands is imposed on shell material, e.g., … Show more

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“…The external surface the tubes treated with wide-aperture beam of Ar + ions with energies of 0.1-1.0 keV (average 500 eV) to doses (1-10)×10 18 cm -2 at the installation KVK-10 [3]. The radiation dose was chosenon the material surface layer spraying calculation the thickness up to 2 μm, which was determined based on the microbalance 1 mg = 0.17 μm.…”
Section: Materials and Toolsmentioning
confidence: 99%
“…The external surface the tubes treated with wide-aperture beam of Ar + ions with energies of 0.1-1.0 keV (average 500 eV) to doses (1-10)×10 18 cm -2 at the installation KVK-10 [3]. The radiation dose was chosenon the material surface layer spraying calculation the thickness up to 2 μm, which was determined based on the microbalance 1 mg = 0.17 μm.…”
Section: Materials and Toolsmentioning
confidence: 99%