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Study of the Thermophysical Properties of Aluminophosphate and Borosilicate Glasses by DSC.
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- Glass Physics & Chemistry, 2023, v. 49, n. 6, p. 564, doi. 10.1134/S1087659623600552
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Evaluation of the Performance of Advanced Refractory Materials Intended for the Roof of an Electric Furnace for High-Level Waste Vitrification.
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- Refractories & Industrial Ceramics, 2023, v. 64, n. 4, p. 361, doi. 10.1007/s11148-024-00852-2
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Physical and Mechanical Properties of Refractories for a Highly Active Waste Vitrification Furnace.
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- Refractories & Industrial Ceramics, 2023, v. 64, n. 2, p. 168, doi. 10.1007/s11148-023-00820-2
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Corrosion Testing of Russian-Made Baddeleyite-Corundum and Chromium-Containing Materials in Borosilicate Glass Melts.
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- Refractories & Industrial Ceramics, 2023, v. 63, n. 6, p. 579, doi. 10.1007/s11148-023-00772-7
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- Article
Dinur's Refractory Materials for Constructing the Roof of Electric Furnaces for High-Level Waste Vitrification.
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- Refractories & Industrial Ceramics, 2022, v. 63, n. 4, p. 343, doi. 10.1007/s11148-023-00733-0
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Study of the Qualitative Characteristics of Manganese-Containing Phosphate and Borophosphate Glasses.
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- Glass Physics & Chemistry, 2022, v. 48, n. 5, p. 372, doi. 10.1134/S1087659622600302
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- Article
Immobilization of Be-Containing HLW in the Aluminophosphate Glass Matrix: The Results of the Investigation and Experience of Its Industrial Introduction on an EP-500/5 Vitrification Furnace.
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- Glass Physics & Chemistry, 2020, v. 46, n. 1, p. 26, doi. 10.1134/S1087659620010137
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- Article
On 3D theory of acoustic metamaterials with a triple-periodic system of interior obstacles.
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- Continuum Mechanics & Thermodynamics, 2019, v. 31, n. 6, p. 1743, doi. 10.1007/s00161-019-00745-7
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- Article
Phase Formation in Phosphate and Borophosphate Glasses Containing Iron, Chromium, Nickel, and Sulfur.
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- Inorganic Materials, 2019, v. 55, n. 8, p. 838, doi. 10.1134/S0020168519080119
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Thermal and Electrical Conductivity of Molten Alumophosphate and Borosilicate Glass Containing Imitators of High-Active Wastes from SNF Processing.
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- Glass Physics & Chemistry, 2018, v. 44, n. 6, p. 557, doi. 10.1134/S1087659618060160
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- Article
Corrosion Testing of Baddeleyite-Corundum and Chromium Oxide Materials in Aluminum Phosphate Glass Melts.
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- Refractories & Industrial Ceramics, 2018, v. 59, n. 1, p. 1, doi. 10.1007/s11148-018-0171-y
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- Article
ON 3D THEORY OF ACOUSTIC METAMATERIALS WITH A TRIPLE-PERIODIC SYSTEM OF INTERIOR OBSTACLES.
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- Proceedings of the National Academy of Sciences of Armenia. Mechanics, 2017, v. 70, n. 4, p. 35, doi. 10.33018/70.4.3
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- Article
Corrosion Resistance of Refractories in Melts of Glasses Used to Immobilize Radioactive Wastes.
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- Refractories & Industrial Ceramics, 2016, v. 57, n. 2, p. 160, doi. 10.1007/s11148-016-9947-0
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- Article
Phase composition and structure of sodium aluminophosphate based glass materials depending on their synthesis conditions.
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- Doklady Physical Chemistry, 2016, v. 466, n. 2, p. 32, doi. 10.1134/S0012501616020020
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Phase composition, structure, and hydrolytic durability of phosphate glass materials for immobilizing liquid highly level waste rich in-iron-group elements.
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- Glass Physics & Chemistry, 2015, v. 41, n. 5, p. 489, doi. 10.1134/S1087659615050193
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Phase composition and structure of molybdenum-, copper-, and cesium-containing sodium aluminophosphate glassy materials for immobilization of high level wastes of nuclear reactors.
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- Glass Physics & Chemistry, 2014, v. 40, n. 5, p. 534, doi. 10.1134/S1087659614050149
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IR and Raman Spectroscopy of Sodium-Aluminophosphate Glasses for Immobilizing High-Level Wastes from Spent Nuclear Fuel Reprocessing.
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- Journal of Applied Spectroscopy, 2014, v. 81, n. 4, p. 618, doi. 10.1007/s10812-014-9979-5
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Cesium speciation in aluminophosphate-based glass-crystalline materials for immobilization of high level waste from uranium-graphite channel reactor spent nuclear fuel reprocessing.
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- Doklady Chemistry, 2014, v. 457, n. 2, p. 148, doi. 10.1134/S0012500814080047
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Hydrothermal extraction of aluminum from solutions of storage tanks of PO Mayak.
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- Theoretical Foundations of Chemical Engineering, 2014, v. 48, n. 4, p. 509, doi. 10.1134/S0040579514040058
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- Article