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Algicidal Granules from Ceramized Rock. Part 2. Calculation of the Technological Process Modes of Firing Raw Granules in a Rotating Furnace1.
Published in:
Refractories & Industrial Ceramics, 2023, v. 63, n. 5, p. 543, doi. 10.1007/s11148-023-00765-6
By:
- Sokov, V. N.;
- Almatov, A. S.
Publication type:
Article
Algicidal Granules from Ceramized Rock. Part 1. Development of Rocks Selection Criteria.
Published in:
Refractories & Industrial Ceramics, 2023, v. 63, n. 5, p. 540, doi. 10.1007/s11148-023-00764-7
By:
- Sokov, V. N.;
- Ramazanov, E. A.
Publication type:
Article
Cellular Vibropneumatic Compacted Corundum. Part 3. Selection of Pressing Force and Order of Application During Vibration Treatment of Alumina-Foam Polystyrene Mixtures.
Published in:
Refractories & Industrial Ceramics, 2022, v. 62, n. 5, p. 561, doi. 10.1007/s11148-022-00643-7
By:
- Sokov, V. N.;
- Sokova, S. D.
Publication type:
Article
Cellular Vibropneumatically Compacted Corundum. Part 2. Features of Physical and Mechanical Vibration Treatment Processes of Alumina-Foam Polystyrene Mixtures.
Published in:
Refractories & Industrial Ceramics, 2022, v. 62, n. 5, p. 557, doi. 10.1007/s11148-022-00642-8
By:
- Sokov, V. N.
Publication type:
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.
Published in:
Refractories & Industrial Ceramics, 2021, v. 62, n. 4, p. 467, doi. 10.1007/s11148-021-00626-0
By:
- Sokov, V. N.
Publication type:
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.
Published in:
Refractories & Industrial Ceramics, 2021, v. 61, n. 6, p. 680, doi. 10.1007/s11148-021-00542-3
By:
- Sokov, V. N.
Publication type:
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.
Published in:
Refractories & Industrial Ceramics, 2021, v. 61, n. 5, p. 544, doi. 10.1007/s11148-021-00518-3
By:
- Sokov, V. N.
Publication type:
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.
Published in:
Refractories & Industrial Ceramics, 2020, v. 61, n. 4, p. 409, doi. 10.1007/s11148-020-00494-0
By:
- Sokov, V. N.;
- Kulibaev, A. A.
Publication type:
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.
Published in:
Refractories & Industrial Ceramics, 2020, v. 61, n. 3, p. 299, doi. 10.1007/s11148-020-00476-2
By:
- Sokov, V. N.
Publication type:
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
Published in:
Refractories & Industrial Ceramics, 2020, v. 60, n. 6, p. 590, doi. 10.1007/s11148-020-00411-5
By:
- Sokov, V. N.
Publication type:
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
Published in:
Refractories & Industrial Ceramics, 2020, v. 60, n. 5, p. 472, doi. 10.1007/s11148-020-00388-1
By:
- Sokov, V. N.
Publication type:
Article
Highly Porous Granulated Corundum Filler of Alumina-Foam Polystyrene Mixture. Part 8. Rational Drying and Firing Regimes for Crude Corundum Granules.
Published in:
Refractories & Industrial Ceramics, 2018, v. 59, n. 4, p. 375, doi. 10.1007/s11148-018-0239-8
By:
- Sokov, V. N.
Publication type:
Article
Highly Porous Granulated Corundum Filler of Alumina-Foam Polystyrene Mixture. Part 7. Study of the Possibility of Preparing Hollow Corundum Granules1.
Published in:
Refractories & Industrial Ceramics, 2018, v. 59, n. 3, p. 275, doi. 10.1007/s11148-018-0220-6
By:
- Sokov, V. N.
Publication type:
Article
Highly Porous Granulated Corundum Filler of Alumina-Foam Polystyrene Mixture. Part 6. Optimization of Plate Granulator Operating Regime.
Published in:
Refractories & Industrial Ceramics, 2018, v. 59, n. 2, p. 144, doi. 10.1007/s11148-018-0196-2
By:
- Sokov, V. N.
Publication type:
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 Properties1.
Published in:
Refractories & Industrial Ceramics, 2018, v. 59, n. 1, p. 54, doi. 10.1007/s11148-018-0182-8
By:
- Sokov, V. N.
Publication type:
Article
Highly Porous Granulated Corundum filler of Alumina-Foam Polystyrene Mixture. Part 4. Determination of Optimum Mixture Compositions1.
Published in:
Refractories & Industrial Ceramics, 2018, v. 58, n. 6, p. 640, doi. 10.1007/s11148-018-0160-1
By:
- Sokov, V. N.
Publication type:
Article
Highly Porous Granulated Corundum Filler of Alumina-Foam Polystyrene Mixture. Part 3. Theoretical Premises of Pelletizing Alumina-Polystyrene Foam Mixtures in a Granulator1.
Published in:
Refractories & Industrial Ceramics, 2018, v. 58, n. 5, p. 542, doi. 10.1007/s11148-018-0141-4
By:
- Sokov, V. N.
Publication type:
Article
Lightweight Vibropressed Material from Clay-Wood-Dust Mixes.
Published in:
Refractories & Industrial Ceramics, 2004, v. 45, n. 2, p. 69, doi. 10.1023/B:REFR.0000029626.84973.ef
By:
- Sokov, V. N.;
- Sokov, V. V.;
- Shelkovkin, O. G.;
- Opolonik, O. P.
Publication type:
Article

Found: 18

Algicidal Granules from Ceramized Rock. Part 2. Calculation of the Technological Process Modes of Firing Raw Granules in a Rotating Furnace<sup>1</sup>.

Algicidal Granules from Ceramized Rock. Part 1. Development of Rocks Selection Criteria.

Cellular Vibropneumatic Compacted Corundum. Part 3. Selection of Pressing Force and Order of Application During Vibration Treatment of Alumina-Foam Polystyrene Mixtures.

Cellular Vibropneumatically Compacted Corundum. Part 2. Features of Physical and Mechanical Vibration Treatment Processes of Alumina-Foam Polystyrene Mixtures.

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.

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.

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.

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.

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.

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

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

Highly Porous Granulated Corundum Filler of Alumina-Foam Polystyrene Mixture. Part 8. Rational Drying and Firing Regimes for Crude Corundum Granules.

Highly Porous Granulated Corundum Filler of Alumina-Foam Polystyrene Mixture. Part 7. Study of the Possibility of Preparing Hollow Corundum Granules<sup>1</sup>.

Highly Porous Granulated Corundum Filler of Alumina-Foam Polystyrene Mixture. Part 6. Optimization of Plate Granulator Operating Regime.

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>.

Highly Porous Granulated Corundum filler of Alumina-Foam Polystyrene Mixture. Part 4. Determination of Optimum Mixture Compositions<sup>1</sup>.

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>.

Lightweight Vibropressed Material from Clay-Wood-Dust Mixes.