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Lightweight Vibropressed Material from Clay-Wood-Dust Mixes.
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- Refractories & Industrial Ceramics, 2004, v. 45, n. 2, p. 69, doi. 10.1023/B:REFR.0000029626.84973.ef
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- Article
Fifty Years since the First Voyage of the R/V Akademik Kurchatov.
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- Oceanology (00014370), 2017, v. 57, n. 6, p. 899, doi. 10.1134/S0001437017060108
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- Article
DETERMINING THE ELASTIC-PLASTIC EFFECTIVE WIDTH OF THE FREE FLANGE OF A HULL GIRDER WITH THE BREAKING OF A WALL.
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- Eastern-European Journal of Enterprise Technologies, 2021, v. 109, n. 7, p. 32, doi. 10.15587/1729-4061.2021.225106
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- Article
Changes in the Content and Composition of Hydrocarbons in the Bottom Sediments of the Norilo-Pyasinsk Water System a Year after a Catastrophic Diesel Fuel Spill.
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- Doklady Earth Sciences, 2023, v. 511, n. 2, p. 652, doi. 10.1134/S1028334X23600858
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- Article
Intermediate Waters in the Irminger Sea during Deep Convection: Variability and the Role of Circulation Mechanisms.
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- Doklady Earth Sciences, 2018, v. 483, n. 2, p. 1553, doi. 10.1134/S1028334X18120127
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- Article
Structure and Variability of the Meridional Overturning Circulation in the North Atlantic Subpolar Gyre, 2007-2017.
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- Doklady Earth Sciences, 2018, v. 483, n. 2, p. 1524, doi. 10.1134/S1028334X18120024
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- Article
The Structure and Long-Term Variability of the Bottom Layer in the Irminger Sea.
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- Doklady Earth Sciences, 2018, v. 481, n. 2, p. 1025, doi. 10.1134/S1028334X18080044
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- Article
Effective Width of the Free Flange of the Ship's Wide Beam with an Axis Bend.
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- Strength of Materials, 2021, v. 53, n. 2, p. 297, doi. 10.1007/s11223-021-00289-9
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- Article
Electronics Unit for "Sun–Terahertz" Scientific Equipment.
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- Instruments & Experimental Techniques, 2024, v. 67, n. 3, p. 545, doi. 10.1134/S0020441224700829
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- Article
A Portable Instrument for Detecting the Charged Component of Cosmic Rays.
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- Instruments & Experimental Techniques, 2022, v. 65, n. 6, p. 976, doi. 10.1134/S0020441222060045
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- Article
Algicidal Granules from Ceramized Rock. Part 2. Calculation of the Technological Process Modes of Firing Raw Granules in a Rotating Furnace<sup>1</sup>.
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- Refractories & Industrial Ceramics, 2023, v. 63, n. 5, p. 543, doi. 10.1007/s11148-023-00765-6
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- Article
Algicidal Granules from Ceramized Rock. Part 1. Development of Rocks Selection Criteria.
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- Refractories & Industrial Ceramics, 2023, v. 63, n. 5, p. 540, doi. 10.1007/s11148-023-00764-7
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- Article
Cellular Vibropneumatic Compacted Corundum. Part 3. Selection of Pressing Force and Order of Application During Vibration Treatment of Alumina-Foam Polystyrene Mixtures.
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- Refractories & Industrial Ceramics, 2022, v. 62, n. 5, p. 561, doi. 10.1007/s11148-022-00643-7
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- Article
Cellular Vibropneumatically Compacted Corundum. Part 2. Features of Physical and Mechanical Vibration Treatment Processes of Alumina-Foam Polystyrene Mixtures.
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- Refractories & Industrial Ceramics, 2022, v. 62, n. 5, p. 557, doi. 10.1007/s11148-022-00642-8
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- Article
Cellular Vibro-Pneumatically Compacted Corundum. Part 1. Features of the Use of Vibropressing Compaction when Obtaining Highly Porous Refractories Based on a Spherically Burning Additive.
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- Refractories & Industrial Ceramics, 2021, v. 62, n. 4, p. 467, doi. 10.1007/s11148-021-00626-0
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- Article
Intensification of the Foam Technology by the Energy of Electrohydrothermal Force Fields. Part 4. Stages and parameters of the activation of foam masses by the action of an internal parameter-dependent field on the formation of the structure of adobe1.
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- Refractories & Industrial Ceramics, 2021, v. 61, n. 6, p. 680, doi. 10.1007/s11148-021-00542-3
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- Article
Intensification of the Foam Technology by the Energy of Electrohydrothermal Force Fields. Part 3. Investigation of the Processes of Heat and Mass Transfer in a Foam System under the Action of EHTFF.
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- Refractories & Industrial Ceramics, 2021, v. 61, n. 5, p. 544, doi. 10.1007/s11148-021-00518-3
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- Article
Intensification of the Foam Technology by the Energy of Electrohydrothermal Force Fields. Part 2. Regularities of Optimization of the Structure of a Lightweight Foam Material Under the Influence of EHTFF1.
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- Refractories & Industrial Ceramics, 2020, v. 61, n. 4, p. 409, doi. 10.1007/s11148-020-00494-0
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- Article
Intensification of the Foam Technology by the Energy of Electrohydrothermal Force Fields. Part 1. Analysis of the Specific Features of Generation of Internal Pressure in Foam Masses by the Action of Electric Currents.
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- Refractories & Industrial Ceramics, 2020, v. 61, n. 3, p. 299, doi. 10.1007/s11148-020-00476-2
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- Article
Chamotte-Free Heat Insulation from Self-Consolidating Mixes Based on Burn-Off Additive of Plant Origin. Part 3. Production Features of Preparing Chamotte-Free Thermal Insulation Products Based on a Burn-Off Additive with a Starch Core of Micellar Structure1
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- Refractories & Industrial Ceramics, 2020, v. 60, n. 6, p. 590, doi. 10.1007/s11148-020-00411-5
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- Article
Chamotte-Free Heat Insulation from Self-Consolidating Mixes Based on Burn-Off Additive of Plant Origin. Part 2. Mineralogical, Chemical, and Biological Features of Burn-Off Additives and their Appearance During Electrohydrothermal Action on a Molding Mass1
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- Refractories & Industrial Ceramics, 2020, v. 60, n. 5, p. 472, doi. 10.1007/s11148-020-00388-1
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- Article
Highly Porous Granulated Corundum Filler of Alumina-Foam Polystyrene Mixture. Part 8. Rational Drying and Firing Regimes for Crude Corundum Granules.
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- Refractories & Industrial Ceramics, 2018, v. 59, n. 4, p. 375, doi. 10.1007/s11148-018-0239-8
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- Article
Highly Porous Granulated Corundum Filler of Alumina-Foam Polystyrene Mixture. Part 7. Study of the Possibility of Preparing Hollow Corundum Granules<sup>1</sup>.
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- Refractories & Industrial Ceramics, 2018, v. 59, n. 3, p. 275, doi. 10.1007/s11148-018-0220-6
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- Article
Highly Porous Granulated Corundum Filler of Alumina-Foam Polystyrene Mixture. Part 6. Optimization of Plate Granulator Operating Regime.
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- Refractories & Industrial Ceramics, 2018, v. 59, n. 2, p. 144, doi. 10.1007/s11148-018-0196-2
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- Article
Highly Porous Granulated Corundum Filler of Alumina-Foam Polystyrene Mixture. Part 5. Effect of Molding Mixture Fineness and Moisture Content on Filler Granulation Capacity and Physicotechnical Properties<sup>1</sup>.
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- Refractories & Industrial Ceramics, 2018, v. 59, n. 1, p. 54, doi. 10.1007/s11148-018-0182-8
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- Article
Highly Porous Granulated Corundum filler of Alumina-Foam Polystyrene Mixture. Part 4. Determination of Optimum Mixture Compositions<sup>1</sup>.
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- Refractories & Industrial Ceramics, 2018, v. 58, n. 6, p. 640, doi. 10.1007/s11148-018-0160-1
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- Article
Highly Porous Granulated Corundum Filler of Alumina-Foam Polystyrene Mixture. Part 3. Theoretical Premises of Pelletizing Alumina-Polystyrene Foam Mixtures in a Granulator<sup>1</sup>.
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- Refractories & Industrial Ceramics, 2018, v. 58, n. 5, p. 542, doi. 10.1007/s11148-018-0141-4
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- Article
Highly Porous Granulated Corundum Filler of Alumina-Foam Polystyrene Mixture. Parts 1 and 2.
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- Refractories & Industrial Ceramics, 2017, v. 58, n. 4, p. 395, doi. 10.1007/s11148-017-0117-9
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- Article
Clinkerless Complex Binder from Refractory Waste and Objects Based on It.
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- Refractories & Industrial Ceramics, 2016, v. 57, n. 4, p. 407, doi. 10.1007/s11148-016-9993-7
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- Article
Complex Clinker-Less Binder Made from Refractory Wastes and Products Based on it. Part 3. Optimization of Complex Binder Composition Based on Cake and Grinding Powder and Establishment of a Correlation Between Production Factors and its Properties.
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- Refractories & Industrial Ceramics, 2016, v. 57, n. 3, p. 262, doi. 10.1007/s11148-016-9964-z
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- Article
Complex Clinker-Less Binder Made From Refractory Wastes and Products Based on it. Part 4. Study of CLCP-Powder Stone Structure.
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- Refractories & Industrial Ceramics, 2016, v. 57, n. 3, p. 264, doi. 10.1007/s11148-016-9965-y
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- Article
Complex Clinker-Less Binder Made from Refractory Wastes and Products Based on it.
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- Refractories & Industrial Ceramics, 2016, v. 57, n. 2, p. 185, doi. 10.1007/s11148-016-9951-4
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- Article
Heat-Resistant Corundum Concrete Reinforced with Aluminum Oxide Fibers Synthesized Within a Matrix During Firing. Part 7. Study of Reinforced Corundum Concrete Resistance in a Carbon- and Hydrogen-Containing Atmosphere (Endogas).
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- Refractories & Industrial Ceramics, 2015, v. 56, n. 2, p. 140, doi. 10.1007/s11148-015-9799-z
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- Article
Heat-Resistant Corundum Concrete Reinforced with Aluminum Oxide Fibers Synthesized Within a Matrix During Firing.Part 8. Petrographic and X-Radiographic Study of Reinforced Refractory Concrete.
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- Refractories & Industrial Ceramics, 2015, v. 56, n. 2, p. 142, doi. 10.1007/s11148-015-9800-x
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- Article
Heat-Resistant Corundum Concrete Reinforced with Aluminum Oxide Fibers Synthesized Within a Matrix During Firing. Part 6. Study of Reinforced Corundum Concrete Mechanical Properties.
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- Refractories & Industrial Ceramics, 2015, v. 56, n. 1, p. 83, doi. 10.1007/s11148-015-9787-3
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Heat-Resistant Corundum Concrete Reinforced with Aluminum Oxide Fibers Synthesized Within a Matrix During Firing. Part 5. Bases of Reinforced Corundum Concrete Technology and Study of Physicomechanical Properties.
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- Refractories & Industrial Ceramics, 2015, v. 56, n. 1, p. 34, doi. 10.1007/s11148-015-9779-3
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- Article
Heat-Resistant Corundum Concrete Reinforced with Aluminum Oxide Fibers Synthesized Within a Matrix During Firing. Part 3. Choice of Rational Components for Preparing Corundum Concrete.
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- Refractories & Industrial Ceramics, 2014, v. 55, n. 4, p. 325, doi. 10.1007/s11148-014-9718-8
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- Article
Heat-Resistant Corundum Concrete Reinforced with Aluminum Oxide Fibers Synthesized Within a Matrix During Firing. Part 4. Choice of Rational Corundum Concrete Composition.
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- Refractories & Industrial Ceramics, 2014, v. 55, n. 4, p. 328, doi. 10.1007/s11148-014-9719-7
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- Article
Heat-Resistant Corundum Concrete Reinforced with Aluminum Oxide Fibers Synthesized Within a Matrix During Firing. Part 1. Heat Resistance of High-Temperature Materials and Means of Improvement.
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- Refractories & Industrial Ceramics, 2014, v. 55, n. 3, p. 223, doi. 10.1007/s11148-014-9693-0
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- Article
Heat-Resistant Corundum Concrete Reinforced with Aluminum Oxide Fibers Synthesized Within a Matrix During Firing. Part 2. Theoretical Prerequisites for Improving Refractory Concrete Heat Resistance Reinforced with Fine Fibers.
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- Refractories & Industrial Ceramics, 2014, v. 55, n. 3, p. 227, doi. 10.1007/s11148-014-9694-z
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- Article
Study of the thermophysical properties of a fibrous nanocorundum-based material with a protective coating in a high-temperature gas flow.
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- Refractories & Industrial Ceramics, 2013, v. 53, n. 6, p. 357, doi. 10.1007/s11148-013-9527-5
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Fibrous nanocorundum products for use in a high-temperature gas flow.
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- Refractories & Industrial Ceramics, 2013, v. 53, n. 6, p. 379, doi. 10.1007/s11148-013-9530-x
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- Article
Principles of the design of variatropic heat-insulating structural refractories.
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- Refractories & Industrial Ceramics, 2012, v. 52, n. 5, p. 328, doi. 10.1007/s11148-012-9425-2
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- Article
Modified corundum lightweight material based on crude unground alumina.
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- Refractories & Industrial Ceramics, 2010, v. 51, n. 5, p. 343, doi. 10.1007/s11148-011-9322-0
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- Article
Granular Composition of Self-Packing Mixtures and Its Role in the Removal of the Solid Phase During Moisture Separation.
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- Refractories & Industrial Ceramics, 2003, v. 44, n. 3, p. 141, doi. 10.1023/A:1026344032138
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- Article
Self-Packing Process in Molding Mixtures Controlled by the Proper Choice of Perforated Wall Parameters of the Mold.
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- Refractories & Industrial Ceramics, 2003, v. 44, n. 3, p. 149, doi. 10.1023/A:1026348100279
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- Article
Model of Combined Effect of Solid and Liquid Phases on Filtering Upon Self-Packing of Mixtures.
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- Refractories & Industrial Ceramics, 2003, v. 44, n. 2, p. 101, doi. 10.1023/A:1024767227997
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- Article