Труды КНЦ (Технические науки вып.4/2023(14))

7. Strokova V. V., Markova I. Yu., Markov A. Yu., Stepanenko M. A., Nerovnaya S. V., Bondarenko D. O., Botsman L. N. Properties of a composite cement binder using fuel ashes // Key Engineering Materials. 2022. V. 909. P. 184-190. 8 . Vatin N., Barabanshchikov Y., Usanova K., Akimov S., Kalachev A., Uhanov A. Cement-based materials with oil shale fly ash additives // IOP Conference Series: Earth and Environmental Science. 2020. V. 17. 012043. 9. Яковлев Г. И., Первушин Г. Н., Пудов И. А., Полянских И. С., Саидова З. С. Об опыте применения метакаолина в качестве структурирующей добавки в цементных композитах // ВестникВСГУТУ. 2021. № 2 (81). С. 58-68. 10. Teixeira E. R., Camoes A., Branco F. G. Synergetic effect of biomass fly ash on improvement of high-volume coal fly ash concrete properties // Construction and Building Materials. 2021. V. 314, Part A. 125680. 11. Kumar B. G., Muthu M., Govindaraj V. The effect of silica fume on the washout resistance of environmentally friendly underwater concrete with a high-volume of siliceous fly ash // Construction and Building Materials. 2022. V. 327. 127058. 12. Муртазаев С.-А. Ю., Чернышева Н. В., Аласханов А. Х. Использование золошлаковых смесей ТЭЦ для производства композиционных гипсовых вяжущих // Экология и промышленность России. 2013. № 7. С. 26-29. 13. Севостьянов В. В., Фрянов В. Н., Родионов А. Е., Шишорин В. А., Севостьянов А. В. Утилизация отходов добычи и переработки угля. СибГИУ. Новокузнецк. 2000. С. 55. 14. Панишев Н. В., Бигеев В. А., Галиулина Е. С. Перспективы утилизации хвостов углеобогащения и твердых отходов тепловых электростанций // Теория и технология металлургического производства. 2015. № 2(17). С. 69-77. References 1. Tarazanov I. G. Itogi raboty Ugol'noj promyshlennosti Rossii za yanvar'-mart 2019 goda [Results of the work of the Coal industry of Russia for January-March 2019]. Ugol' [Coal], 2019, no. 6 , pp. 67-77. (In Russ.). 2. Semina I. S., Androkhanov V. A., Kulyapina E. D. Opyt ispol'zovaniya othodov ugleobogashcheniya dlya rekul'tivacii narushennyh uchastkov [The experience of using coal enrichment waste for recultivation of disturbed areas]. Gornyj informacionno-analiticheskij byulleten' [Mining information and analytical bulletin], 2020, no. 9, pp. 159-175. (In Russ.). 3. Alekseyko L. N., Taskin A. V. Complex recycling of ASW of energy enterprises. Proc. IXInt. Conf. Ecology and Development o f Society, Saint Petersburg, 2005, pp. 12-21. 4. Lesovik V. S., Fedyuk R. S. Kompozity novogo pokoleniya dlya special'nyh sooruzhenij [New generation composites for special structures]. Stroitel’nye materialy [Building materials], 2021, no. 3, pp. 9-17. (In Russ.). 5. Lesovik V. S., Fedyuk R. S., Gridchin A. M., Murali G. Povyshenie ekspluatacionnyh harakteristik zashchitnyh kompozitov [Improving the performance characteristics of protective composites]. Stroitel'nye materialy [Building materials], 2021, no. 9, pp. 32-40. (In Russ.). 6 . Lesovik V. S., Fedyuk R. S. Povyshenie effektivnosti malopronicaemyh cementnyh kompozitov [Improving the efficiency of low-permeable cement composites]. VestnikMGSU [Herald of Moscow State University of Civil Engineering], 2021, vol. 16, no. 10, pp. 1346-1356. (In Russ.). 7. Strokova V. V., Markova I. Yu., Markov A. Yu., Stepanenko M. A., Nerovnaya S. V., Bondarenko D. O., Botsman L. N. Properties of a composite cement binder using fuel ashes. Key EngineeringMaterials, 2022, vol. 909, pp. 184-190. 8 . Vatin N., Barabanshchikov Y., Usanova K., Akimov S., Kalachev A., Uhanov A. Cement-based materials with oil shale fly ash additives. IOP Conference Series: Earth and Environmental Science , 2020, vol. 17, 012043. 9. Yakovlev G. I., Pervushin G. N., Pudov I. A., Polyanskikh I. S., Saidova Z. S. Ob opyte primeneniya metakaolina v kachestve strukturiruyushchej dobavki v cementnyh kompozitah [On the experience of using metakaolin as a structuring additive in cement composites]. Vestnik VSGUTU [Bulletin ofEast Siberia State University of Technology and Management], 2021, no. 2 (81), pp. 58-68. (In Russ.). 10. Teixeira E. R., Camoes A., Branco F. G. Synergetic effect of biomass fly ash on improvement of high-volume coal fly ash concrete properties. Construction and Building Materials, 2021, vol. 314, part A, 125680. 11. Kumar B. G. The effect of silica fume on the without resistance of environmentally friendly underwater concrete with a high-volume of siliceous fly ash. Kumar B. G., Muthu M., Govindaraj V. Construction and Building Materials, 2022, vol. 327, 127058. 12. Murtazaev S.-A. Yu., Chernysheva N. V., Alaskhanov A. H. Ispol'zovanie zoloshlakovyh smesej TEC dlya proizvodstva kompozicionnyh gipsovyh vyazhushchih [The use of ash and slag mixtures of thermal power plants for the production of composite gypsum binders]. Ekologiya i promyshlennost' Rossii [Ecology and industry of Russia], 2013, no. 7, pp. 26-29. (In Russ.). 13. Sevostyanov V. V., Fryanov V. N., Rodionov A. E., Shishorin V. A., Sevostyanov A. V. Utilizaciya othodov dobychi ipererabotki uglya [Utilization of coal mining and processing waste. Textbook]. Novokuznetsk, SibGIU, 2000, p. 55. (In Russ.). Труды Кольского научного центра РАН. Серия: Технические науки. 2023. Т. 14, № 4. С. 201-206. Transactions of the Kola Science Centre of RAS. Series: Engineering Sciences. 2023. Vol. 14, No. 4. P. 201-206. © Таскин А. В., Черкасова Т. Г., Федюк Р. С., Петухов В. И., Федотов Д. Р., Кулаков Н. Д., Матвеев Е. А., Панарин И. И., 2023 205

RkJQdWJsaXNoZXIy MTUzNzYz