KnE Materials Science
ISSN: 2519-1438
The latest conference proceedings on physical materials, energy materials, electrical materials.
Alloying of Surface Layers of the Fuel Claddings from Sponge Based E110 Alloy to Increase High Temperature Oxidation Resistance
Published date: May 06 2018
Journal Title: KnE Materials Science
Issue title: 15th International School-Conference "New Materials – Materials of Innovative Energy" (MIE)
Pages: 429–434
Authors:
Abstract:
The results of experiments of parts of cladding tubes from sponge based zirconium E110 alloy near-surface layers doping by means of ion-plasma technologies are presented in this paper. Alloying of material by method of pre-deposited Fe, Y, Mo, Al, Mg, Cr films ion mixing is performed on installation ILUR-03 by means of radial
Ar+ion beam 3-4 keV average energy. State of modified material layer and oxides, grown on the modified samples in argon-water steam mixture at 1200 ∘C studied by scanning electron and ion microscopy methods, X-ray analysis and secondary ion mass spectroscopy. It is shown that treating modes defined contribute to the barrier for oxygen penetration and material oxidation formation near ion-doped surface.
References:
[1] Brachet G C, Pelchat J, Hamon D, Maury R, Jacques P and Mardon J P 2002 Proc. of IAEA Tech. Committee meeting 139-58
[2] Steinberg M, Ver N and Große M 2011 Oxid. Met. 76 215-32
[3] Valikov R A, Yashin A S, Yakutkina T V, Kalin B A, Volkov N V, Krivobokov V P,Yanin S N, Asainov O Kh and Yuriev Yu N 2015 J. of Physics: Conf. Ser. 652 012068
[4] Kalin B A, Volkov N V, Valikov R A, Yashin A S, Krivobokov V P,Yanin S N, Asainov O Kh and Yuriev Yu N 2016 IOP Conf. Series: Materials Science and Engineering 130 012051
[5] Kalin B A, Volkov N V, Valikov R A, Yashin A S and Yakutkina T V 2016 IOP Conf. Series: Materials Science and Engineering 130 012005