Structure study of new uranium loaded borosilicate glasses

Structure study of new uranium loaded borosilicate glasses

The structure of multi-component borosilicate SiO2–B2O3–Na2O–BaO–ZrO2 glass loaded with 30wt.% UO3 was investigated by neutron diffraction and high-energy X-ray diffraction. Reverse Monte Carlo modelling was applied to obtain a possible 3-dimensional atomic configuration consistent with the experime...

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Veröffentlicht in:Journal of non-crystalline solids 2013-11, Vol.380, p.71-77
Hauptverfasser: Fábián, M., Sváb, E., Zimmermann, M.v.
Format: Artikel
Sprache:eng
Schlagworte:
Atomic structure
Borosilicate glasses
Condensed matter: structure, mechanical and thermal properties
Correlation
Exact sciences and technology
Glassy
Networks
Neutron diffraction
Neutron diffraction and scattering
Oxygen atoms
Physics
Radioactive waste disposal
Reverse Monte Carlo simulation
Silicon dioxide
Single-crystal and powder diffraction
Structure of solids and liquids
crystallography
Uranium
X-ray diffraction
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container_title Journal of non-crystalline solids
container_volume 380
creator Fábián, M.
Sváb, E.
Zimmermann, M.v.
description The structure of multi-component borosilicate SiO2–B2O3–Na2O–BaO–ZrO2 glass loaded with 30wt.% UO3 was investigated by neutron diffraction and high-energy X-ray diffraction. Reverse Monte Carlo modelling was applied to obtain a possible 3-dimensional atomic configuration consistent with the experimental data. It was established that the glassy network consists of tetrahedral SiO4 and of mixed tetrahedral BO4 and trigonal BO3 units. With increasing boron content the relative number of BO3/BO4 increases and the first neighbour rBO distance decreases. For the UO correlations two distinct first neighbour distances were determined at 1.8Å with 1.9 oxygen atoms and at 2.2Å with 3.7 oxygen atoms. Significant second neighbour correlations have been established between uranium and the network former (Si, B), the modifier (Na) and the stabilizer (Zr) atoms. From these observations we may conclude that uranium ions take part in the network forming. This may be the reason of the observed good glassy stability and hydrolytic properties. •Structure parameters of glasses by neutron-, X-ray diffraction and RMC modelling•The borosilicate network consists of mixed SiOB linkages.•Both BO3 and BO4 units are present.•The UO correlations show two distinct first neighbour peaks.•Significant second neighbour distances are in the uranium neighbourhood.
doi_str_mv 10.1016/j.jnoncrysol.2013.09.004
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Reverse Monte Carlo modelling was applied to obtain a possible 3-dimensional atomic configuration consistent with the experimental data. It was established that the glassy network consists of tetrahedral SiO4 and of mixed tetrahedral BO4 and trigonal BO3 units. With increasing boron content the relative number of BO3/BO4 increases and the first neighbour rBO distance decreases. For the UO correlations two distinct first neighbour distances were determined at 1.8Å with 1.9 oxygen atoms and at 2.2Å with 3.7 oxygen atoms. Significant second neighbour correlations have been established between uranium and the network former (Si, B), the modifier (Na) and the stabilizer (Zr) atoms. From these observations we may conclude that uranium ions take part in the network forming. This may be the reason of the observed good glassy stability and hydrolytic properties. •Structure parameters of glasses by neutron-, X-ray diffraction and RMC modelling•The borosilicate network consists of mixed SiOB linkages.•Both BO3 and BO4 units are present.•The UO correlations show two distinct first neighbour peaks.•Significant second neighbour distances are in the uranium neighbourhood.</abstract><cop>Oxford</cop><pub>Elsevier B.V</pub><doi>10.1016/j.jnoncrysol.2013.09.004</doi><tpages>7</tpages></addata></record>
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subjects Atomic structure
Borosilicate glasses
Condensed matter: structure, mechanical and thermal properties
Correlation
Exact sciences and technology
Glassy
Networks
Neutron diffraction
Neutron diffraction and scattering
Oxygen atoms
Physics
Radioactive waste disposal
Reverse Monte Carlo simulation
Silicon dioxide
Single-crystal and powder diffraction
Structure of solids and liquids
crystallography
Uranium
X-ray diffraction
title Structure study of new uranium loaded borosilicate glasses
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