Soumia Kamariz scite author profile

New nuclear glass-ceramics are extensively studied for the radioactive waste confinement, due to the double confinement conferred by the glass-ceramics. In this study, a glass-ceramic constituted by an aluminosilicate glass in the system: SiO2-Al2O3-CaO-MgOZrO2-TiO2, containing 2wt.% of Ca0.83Ce0.17ZrTi1.66Al0.34O7 zirconolite, has been synthesized by the discontinuous method. Cerium, an actinide surrogate is introduced both in the glass and ceramic phases. The synthesis is performed by a double melting at 1350?C, followed by a nucleation at 564?C, during 2 h, and a crystal growth at 1010?C during 3 h. Then effect of Ca/Mg ratio on the distribution of the crystalline network in the material was studied for Ca / Mg ratios ranging from 0.4 to 5.5. For the whole of the materials, Archimedes density is about 2.80 g/cm3. X-ray diffraction (XRD) analysis shows that the increase of Ca/Mg ratio leads to the increase of aluminosilicated crystalline phases with high Ca contents; the materials molar volumes remaining constant. The zirconolite phase is not affected by these additive aluminosilicated phases. The scanning electron microscopy analysis (SEM) coupled with energy dispersive X-ray (EDX) analysis confirmed these results; and shows the uniformity of distribution of the ceramics in the bulk of the materials.

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Microwave chemical durability of an iron-rich glass-ceramic dedicated for high-level radioactive waste

Moudir¹,

Souag²,

Kamel³

et al. 2023

Mater. Res. Express

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This study investigates the effect of crystallization time (tc) in the structure of an iron-rich glass-ceramic (GC) dedicated for high-level radioactive waste (HLW), ceramized by nucleation–crystallization treatment at 790 °C for 2 h and 950 °C, for different periods ranging from 3 to 12 h. Density, XRD, SEM, FTIR, and Microwave chemical durability results are shown. Considering all the materials, Archimedes' density is between 2.607 and 2.634 g/cm3. Both XRD and SEM analyses revealed the development of two main crystalline phases, spodumene (LiAlSi2O6) and (Zr, Ln) molybdate La2Zr3(MoO4)9, during the heat treatment. These phases regularly grow by the increase of crystallization time. They are known as radionuclides' sequestration minerals. FTIR analysis confirms the complex GCs chemical composition. The microwave chemical durability test performed on GCs crystallized at tc = 9 h was conducted to evaluate their chemical stability. The leachates of the elements: Al, Fe, Mg, Li, Mo, Na, Si, and Zr were analyzed by ICP-OES. RLi values of Al, Mg, Mo, and Zr elements representing the radioactive waste (RW), vary between 2.3218x10-8 and 2.9204x10-8 kg/m2d. For Fe and Li, were slightly lower. However, RLSi was highest reaching 1.7457x10-6 kg/m2d. The elementary percentages extracted during the dissolution test for all elements are less than 0.5 %, which makes our material chemically stable. Its resistance to such an aggressive dissolution test makes it a good candidate for the confinement of some RW elements.

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Effect of crystallization time on the structure of the Aluminosilicate glass-ceramic

Souag

Kamel

Moudir

et al. 2018

J. Phys.: Conf. Ser.

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Synthèse et caractérisation d’une powellite Ca_1-X-YNa_XREE_YMoO₄, minéral de confinement des déchets radioactifs, dope avec trois elements de terre rare: Y, Er OU Yb

Moudir¹,

Hayet²,

Yahiaoui³

et al. 2015

Ann. Chim. Sci. Mat.

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Ftir and Raman Spectroscopic Study of a Complex Perovskite: Ca_0.91-XCe_0.09Rb_0.04Cs_x[(Zr_0.50Ti_0.45)Al_0.05]O₃, X=0.2 to 0.4, Dedicated for Radioactive Waste Confinement

M.Hasnat¹,

Kamel

Moudir

et al. 2020

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AbstractPerovskite is able to sequester simultaneously, in its structure, both actinides and alkaline-earth elements. This study is an attempt to synthesize a complex perovskite Ca0.91-xCe0.09Rb0.04Csx[(Zr0.50Ti0.45)Al0.05]O3 (0.2≤x≤0.4), doped in the same time, with Ce, Cs and Rb. The synthesis is conducted by sintering at 1150°C during 16h. XRX analysis confirms the perovskite formation. SEM observations show a less porous microstructure. FTIR analysis reveals TiO6, Ti-O-Ti, Ti-O and Zr-O vibrations. Raman spectroscopy indicates many orthorhombic perovskite active modes, as: Ti-O6 and Ti-O3 torsions, ZrO7, CaO8 vibrations, the totally symmetric oxygen, and the O-octahedron cage rotation.

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Soumia Kamariz

Study of the effect of Ca/Mg alkali-oxides ratio on the structure of a glass-ceramic based on an aluminosilicated glass containing 2wt.% of zirconolite crystalline phase

Microwave chemical durability of an iron-rich glass-ceramic dedicated for high-level radioactive waste

Effect of crystallization time on the structure of the Aluminosilicate glass-ceramic

Synthèse et caractérisation d’une powellite Ca_1-X-YNa_XREE_YMoO₄, minéral de confinement des déchets radioactifs, dope avec trois elements de terre rare: Y, Er OU Yb

Ftir and Raman Spectroscopic Study of a Complex Perovskite: Ca_0.91-XCe_0.09Rb_0.04Cs_x[(Zr_0.50Ti_0.45)Al_0.05]O₃, X=0.2 to 0.4, Dedicated for Radioactive Waste Confinement

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Soumia Kamariz

Study of the effect of Ca/Mg alkali-oxides ratio on the structure of a glass-ceramic based on an aluminosilicated glass containing 2wt.% of zirconolite crystalline phase

Microwave chemical durability of an iron-rich glass-ceramic dedicated for high-level radioactive waste

Effect of crystallization time on the structure of the Aluminosilicate glass-ceramic

Synthèse et caractérisation d’une powellite Ca1-X-YNaXREEYMoO4, minéral de confinement des déchets radioactifs, dope avec trois elements de terre rare: Y, Er OU Yb

Ftir and Raman Spectroscopic Study of a Complex Perovskite: Ca0.91-XCe0.09Rb0.04Csx[(Zr0.50Ti0.45)Al0.05]O3, X=0.2 to 0.4, Dedicated for Radioactive Waste Confinement

Contact Info

Product

Resources

About

Synthèse et caractérisation d’une powellite Ca_1-X-YNa_XREE_YMoO₄, minéral de confinement des déchets radioactifs, dope avec trois elements de terre rare: Y, Er OU Yb

Ftir and Raman Spectroscopic Study of a Complex Perovskite: Ca_0.91-XCe_0.09Rb_0.04Cs_x[(Zr_0.50Ti_0.45)Al_0.05]O₃, X=0.2 to 0.4, Dedicated for Radioactive Waste Confinement