Effect of gamma irradiation on the physical properties of melt span alloys of Ti30Zr45Ni25
Keywords:
hydrogen absorption, amorphous alloys, Laves phase, irradiation
Abstract
Gamma irradiation of the melt span samples of Ti30Zr45Ni25 up to the dose of 104 rad did not result in any substantial changes of their physical properties (micro hardness and electric resistivity), which is consistent with a high degree of disorder in the initial microstructure that does not change significantly under irradiation. The present results show that these materials can be considered as radiation resistant hydrogen absorbers (HABs) for the mitigation of hydrogen hazards in severe accidents in nuclear power plants.
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References
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R.V. Azhazha, Yu.P. Bobrov, А.М. Bovda, A.E. Dmitrenko, Research of processes of sorption-desorption of hydrogen from the rapidly quenched alloys of the Ti-Zr-Ni system. VANT 17 (2008) 129-132.
J.Y. Kim, P.C. Gibbons , K.F. Kelton, Hydrogenation of Pd-coated samples of the Ti–Zr-based icosahedral phase and related crystalline phases, J. Alloys and Compounds 266 (1998) 311–317.
V.M. Azhazha, .D. Lavrinenko, Yu.F. Lоnіn, M.M. Pylypenko, B.V. Sereda, S.V. Kryachko,S.V. Malykhin, A.T. Pugachov, M.V. Reshetnyak, Changes of structure characteristics in Ti41,5Zr41,5Ni17 and Ti41,5Hf41,5Ni17 rapidly quenched ribbons under radiation influence, VANT, #2/97 (2011) 33-38.
E.H. Majzoubyz, R.G.Hennig and K.F. Kelton. Rietveld refinement and ab initio calculations of a C14-like Laves phase in Ti-Zr-Ni, Philosophical magazine letters, 83 (2003) 65–71.
I. P. Chernov, Yu. M. Koroteev., V. M. Silkin, Yu. I. Tyurin Excitation of Hydrogen Subsystem in Metals by External Influence, Proc. 8th Int. Workshop on Anomalies in Hydrogen / Deuterium Loaded Metals, (2007) p. 27-37.
J. F. R. Archilla, J. Cuevas, M. D. Alba, M. Naranjo, J. M. Trillo, Discrete breathers for understanding reconstructive mineral processes at low temperatures, J. Phys. Chem. B110 (2006) 24112-24120.
M. Haas, V. Hizhnyakov, A. Shelkan, M. Klopov, Prediction of high-frequency intrinsic localized modes in Ni and Nb, Phys. Rev. B, 84 (2011) 144303-1-8.
V. Hizhnyakov, M. Haas, A. Shelkan, M. Klopov, Theory and molecular dynamics simulations of intrinsic localized modes and defect formation in solids, Phys. Scr. 89 (2014) 044003-1-5.
L.Z. Khadeeva, S.V. Dmitriev, Discrete breathers in crystals with NaCl structure, Phys. Rev. B 81 (2010) 214306-1-8.
M.E. Manley, Impact of intrinsic localized modes of atomic motion on materials properties, Acta Materialia, 58 (2010) 2926-2935.
V. I. Dubinko, P. A. Selyshchev, and J. F. R. Archilla, Reaction-rate theory with account of the crystal anharmonicity, Phys. Rev. E 83 (2011) No 4, doi: 10.1103/PhysRevE.83.041124.
V.I. Dubinko, F.M. Russell, Radiation damage and recovery due to the interaction of crystal defects with anharmonic lattice excitations, J. Nuclear Materials, 419 (2011) 378-385.
V. I. Dubinko, A. V. Dubinko, Modification of reaction rates under irradiation of crystalline solids: contribution from intrinsic localized modes, Nuclear Inst. and Methods in Physics Research, B 303 (2013) 133–135.
V.I. Dubinko, F. Piazza, On the role of disorder in catalysis driven by discrete breathers, Letters on Materials (2014), 4 (2014) 273-278.
V. I. Dubinko, J. F. R. Archilla, S. V. Dmitriev, V. Hizhnyakov: Rate theory of acceleration of defect annealing driven by discrete breathers. In:
J.F.R. Archilla, N. Jiménez, Sánchez-Morcillo, L.M. García-Raffi (eds.) Quodons in mica: nonlinear localized travelling excitations in crystals. Springer (2015).
D. Terentyev, A. Dubinko, V. Dubinko, S. Dmitriev, E. Zhurkin, Interaction of discrete breathers with primary lattice defects in bcc Fe. Modelling Simul. Mater. Sci. Eng. 23 (2015) 085007-085030.
Published
2017-01-23
How to Cite
Dmytrenko, O. E., Kolodiy, I. V., & Dubinko, V. I. (2017). Effect of gamma irradiation on the physical properties of melt span alloys of Ti30Zr45Ni25. Journal of V. N. Karazin Kharkiv National University. Series Physics, (24), 50-54. Retrieved from https://periodicals.karazin.ua/physics/article/view/9206
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