Use of Spent Molding Sand in the Production of Refractories (English)
- New search for: Ponomarenko, Z. G.
- New search for: Rechneva, A. L.
- New search for: Kapustin, F. L.
- New search for: Kashcheev, I. D.
- New search for: Perepelitsyn, V. A.
- New search for: Ponomarenko, A. A.
- New search for: Ponomarenko, Z. G.
- New search for: Rechneva, A. L.
- New search for: Kapustin, F. L.
- New search for: Kashcheev, I. D.
- New search for: Perepelitsyn, V. A.
- New search for: Ponomarenko, A. A.
In:
Refractories and Industrial Ceramics
;
57
, 2
;
132-134
;
2016
- Article (Journal) / Electronic Resource
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Title:Use of Spent Molding Sand in the Production of Refractories
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Contributors:Ponomarenko, Z. G. ( author ) / Rechneva, A. L. ( author ) / Kapustin, F. L. ( author ) / Kashcheev, I. D. ( author ) / Perepelitsyn, V. A. ( author ) / Ponomarenko, A. A. ( author )
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Published in:Refractories and Industrial Ceramics ; 57, 2 ; 132-134
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Publisher:
- New search for: Springer US
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Place of publication:New York
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Publication date:2016-07-01
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Size:3 pages
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ISSN:
-
DOI:
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Type of media:Article (Journal)
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Type of material:Electronic Resource
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Language:English
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Keywords:
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Source:
Table of contents – Volume 57, Issue 2
The tables of contents are generated automatically and are based on the data records of the individual contributions available in the index of the TIB portal. The display of the Tables of Contents may therefore be incomplete.
- 109
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Effect of Refining Slag Phase Composition on Ladle Furnace Unit Lining $ Life^{1} $Sheshukov, O. Yu. / Nekrasov, I. V. / Mikheenkov, M. A. / Egiazar’yan, D. K. / Ovchinnikova, L. A. / Kashcheev, I. D. / Zemlyanoi, K. G. / Kamenskikh, V. A. et al. | 2016
- 117
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Durable Structures for the Lining of Electric-Arc Furnaces Used to Make Ferronickel and Granular MattesSlovikovskii, V. V. / Gulyaeva, A. V. et al. | 2016
- 121
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Possibilities of a Thermomechanical Method for Enriching Magnesia-Bearing Raw Materials to Obtain Quality MagnesiaSmirnov, A. N. / Turchin, M. Yu. / Abdrakhmanov, R. N. et al. | 2016
- 125
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Theoretical and Applied Aspects of Forecasting Refractories of the FuturePerepelitsyn, V. A. / Kapustin, F. L. / Sheshukov, O. Yu. / Yagovtsev, A. V. / Ostryakov, L. V. et al. | 2016
- 132
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Use of Spent Molding Sand in the Production of RefractoriesPonomarenko, Z. G. / Rechneva, A. L. / Kapustin, F. L. / Kashcheev, I. D. / Perepelitsyn, V. A. / Ponomarenko, A. A. et al. | 2016
- 135
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Research in the Area of Preparing Materials Based on Fuzed Quartz HCBS. Part 9. Effect of Alkali Additions on Material Cristobalitization and Thermal Expansion After Nonisothermal $ Heating^{1} $Pivinskii, Yu. E. / Dyakin, P. V. / Kolobov, A. Yu. et al. | 2016
- 141
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Stages in Multilayer Carbon Nanotube Formation with Mechanical Activation of Amorphous CarbonReva, V. P. / Filatenkov, A. É. / Mansurov, Yu. N. / Kuryavyi, V. G. et al. | 2016
- 146
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Ceramic of the Mullite–$ ZrO_{2} $–SiAlON System During Spark Plasma SinteringSedmale, G. / Rundans, M. / Sperberga, I. / Setina, J. / Cimmers, A. et al. | 2016
- 151
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Synthesis and Reinforcement of Heat-Resistant Cordierite-Mullite Ceramic Structure with Introduction of a Fiber FillerPodbolotov, K. B. / Dyatlova, E. M. / Volochko, A. T. et al. | 2016
- 155
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Heat-Conducting Properties of High-Temperature Materials Based on Graphite FoamFilimonov, S. V. / Kamaev, A. O. / Shornikova, O. N. / Malakho, A. P. / Avdeev, V. V. et al. | 2016
- 160
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Corrosion Resistance of Refractories in Melts of Glasses Used to Immobilize Radioactive WastesSokolov, V. A. / Gasparyan, M. D. / Remizov, M. B. / Kozlov, P. V. et al. | 2016
- 164
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Micromachining of a High-Density Current-Conducting Ceramic With the Use of Electrical-Discharge Machining. Part 1Kuzin, V. V. / Fedorov, S. Yu. / Szalay, Tibor / Farkas, Balázs et al. | 2016
- 170
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Improvement of Carbon Composite Material Refractoriness Due to Limitation of Surface OxidationCheblakova, E. G. / Bamborin, M. Yu. / Maksimova, D. S. / Gareev, A. R. / Kolesnikov, S. A. et al. | 2016
- 180
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Research in the Field of Preparing Molded and Unmolded Refractories Based on High-Alumina HCBS. Part 5. Effect of Firing Temperature on Properties of Materials Prepared From Composite HCBS With Addition of Refractory $ Clay^{1} $Pivinskii, Yu. E. / Dyakin, P. V. / Ostryakov, L. V. et al. | 2016
- 185
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Complex Clinker-Less Binder Made from Refractory Wastes and Products Based on itSokov, V. N. et al. | 2016
- 189
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Heat-Insulating Properties of Refractory Materials Made with the Use of Artificial Ceramic BindersPeretokina, N. A. / Doroganov, V. A. / Grudina, V. A. / Pogikyan, A. N. et al. | 2016
- 192
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The Stressed State of the Boundary Between Ceramic and a Coating Under the Effect of Power LoadsKuzin, V. V. / Fedorov, M. Yu. et al. | 2016
- 199
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Effects and Mechanisms of Binders on the Properities of Magnesium Oxide PelletsZhang, Rongrong / Lu, Guimin / Yu, Jianguo et al. | 2016
- 207
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Shock-Resistant Materials Based on Commercial Grade Ceramic: Achievements and Prospects for Improving Their Ballistic EfficiencyGarshin, A. P. / Kulik, V. I. / Nilov, A. S. et al. | 2016