AbstractAbout AuthorsReferences
Approaches to switching to clinker-free binders and building composites with their use to replace resource-and energy-intensive Portland cement, at least in those areas of construction where its high technical and functional properties are not needed, are substantiated. In the absence in many regions of the country domain granulated slag, has been developed the optimal formulations and the properties of alkaline activated binders based on finely dispersed mineral powders were studied and theoretical basis of formation of structure and strength of alkali of the cement stone is described. The results of these studies are of practical value for the construction industry, as the resulting formulations of clinker-free cements will partially replace expensive and energy-intensive Portland cement in the production of concrete and reinforced concrete structures.
M.Sh. SALAMANOVA1, Candidate of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.),
S.-A.Yu. MURTAZAEV1, Doctor of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.);
M.R. NAKHAEV1,2, Candidate of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.)
S.-A.Yu. MURTAZAEV1, Doctor of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.);
M.R. NAKHAEV1,2, Candidate of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.)
1 Grozny State oil technical university named after Academician M.D. Millionshikov (100, Avenue Isaev, Grozny, 364021, Russian Federation)
2 Chechen State University (32, Sheripova Street, Grozny, 364907, Russian Federation)
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1. Shchelochnye i shchelochnozemel’nye gidravlicheskie vyazhushchie i betony. Pod redaktsiey V.D. Glukhovskogo [Alkaline and alkaline earth hydraulic binders and concrete]. Kiev: Vishcha shkola. 1979. 232 р.
2. Глуховский В.Д., Пахомов В.А. Шлакощелочные цементы и бетоны. Киев: Будiвельник, 1978. 184 с.
2. Glukhovskiy V.D., Pakhomov V.A. Shlakoshchelochnye tsementy i betony [Slag-alkali cements and concretes]. Kiev: Budivel’nik. 1978. 184 р.
3. Кривенко П.В., Пушкарева К.К. Долговечность шлакощелочного бетона. Киев: Будiвельник, 1993. 224 с.
3. Krivenko P.V., Pushkareva K.K. Dolgovechnost’ shlakoshchelochnogo betona. [Durability of slag-alkali concrete]. Kiev: Budivel’nik. 1993. 224 р.
4. Davidovits J. Geopolymer Chemistry and applications. Saint-Quentin: Institute Geopolymer. 2008. 592 p.
5. Duxson P., Fernández-Jiménez A., Provis J., Lukey G., Palomo A., Van Deventer J. Geopolymer technology: the current state of the art. Journal of Materials Science. Vol. 42, pp. 2917–2933. DOI: 10.1007/s10853-006-0637-z
6. Bataev D.K-S.,Murtazaev S-A.Yu., Salamanova M.Sh. Fine-grained concretes on non-clinker binders with highly disperse mineral components. Materials Science Forum. 2018. Vol. 931, pp. 552–557. DOI: https://doi.org/10.4028/www.scientific.net/MSF.931.552
7. Саламанова М.Ш., Муртазаев С.-А.Ю. Цементы щелочной активации: возможность снижения энергоемкости получения строительных композитов // Строительные материалы. 2019. № 7. С. 32–40. DOI: https://doi.org/10.31659/0585-430X-2019-772-7-32-40
7. Salamanova M.Sh., Murtazaev S.-A.Yu. Cements of alkaline activation the possibility of reducing the energy intensity of building composites. Stroitel’nye Materialy [Construction Materials]. 2019. No. 7, pp. 32–40. (In Russian). DOI: https://doi.org/10.31659/0585-430X-2019-772-7-32-40
8. Муртазаев С-А.Ю., Саламанова М.Ш. Перспективы использования термоактивированного сырья алюмосиликатной природы // Приволжский научный журнал. 2018. Т. 46. № 2. С. 65–70.
8. Murtazayev S-A.Yu., Salamanova M.Sh. Prospects of the use of thermoactivated raw material of alumosilicate nature. Privolzhskii nauchnyi zhurnal. 2018. Vol. 46. No. 2, pp. 65–70. (In Russian).
9. Никифоров Е.А., Логанина В.И., Симонов Е.Е. Влияние щелочной активации на структуру и свойства диатомита // Вестник БГТУ им. В.Г. Шу-хова. 2011. № 2. С. 30–32.
9. Nikiforov E.A., Loganina V.I., Simonov E.E. The effect of alkaline activation on the structure and properties of diatomite. Vestnik BGTU im. V.G. Shu-khova. 2011. No. 2, pp. 65–70. (In Russian).
10. Nesvetaev G., Koryanova Y., Zhilnikova T. Оn effect of superplasticizers and mineral additives on shrinkage of hardened cement paste and concrete. MATEC Web of Conferences. 27th Russian-Polish-Slovak SEMINAR, theoretical foundation of civil engineering (27RSP), TFOCE. Rostov-on-Don, 17–21 September 2018. 04018.
11. Stelmakh S.A., Nazhuev M.P., Shcherban E.M., Yanovskaya A.V., Cherpakov A.V. Selection of the composition for centrifuged concrete, types of centrifuges and compaction modes of concrete mixtures. Physics and Mechanics of New Materials and Their Applications (PHENMA 2018). Abstracts & Schedule. Busan, Republic of Korea, 9–11 August 2018, p. 337.
12. Shuisky A., Stelmakh S., Shcherban E., Torlina E. Recipe-technological aspects of improving the properties of non-autoclaved aerated concrete MATEC Web Conference. Vol. 129. International Conference on Modern Trends in Manufacturing Technologies and Equipment (ICMTMTE 2017). 2017. 05011. https://doi.org/10.1051/matecconf/201712905011
13. Солдатов А.А., Сариев И.В., Жаров М.А., Абдураимова М.А. Строительные материалы на основе жидкого стекла. Актуальные проблемы строительства, транспорта, машиностроения и техносферной безопасности: Материалы IV ежегодной научно-практической конференции Севе-ро-Кавказского федерального университета. Н.И. Стоянов (ответственный редактор). Ставрополь. 2016. С. 192–195.
13. Soldatov A.A., Sariev I.V., Zharov M.A., Abduraimova M.A. Building materials based on liquid glass. Actual problems of construction, transport, mechanical engineering and technosphere safety: Materials of the IV annual scientific and practical conference of the North Caucasus Federal University. N.I. Stoyanov (executive editor). Stavropol’. 2016, рр. 192–195. (In Russian).
14. Martschuk V., Stark T.Untersuchungen zurn Frost-Tausalz-Widerstaud von Mochleistungsbetonen. Thesis: Wiss. Z. Bauhaus -Univ. Weimar. 1998. V. 44. No. 1–2, рр. 92–103.
15. Larbi J.A., Bijen J.M. Effect of water-cement ratio, quantity and fineness of sand on the evolution of lime in set Portland cement systems. Cement and Concreate Research. 1990. Vol. 20. No. 5, pp. 783–794.
16. Саламанова М.Ш., Алиев С.А., Муртазаева Р.С.-А.Структура и свойства вяжущих щелочной активации с использованием цементной пыли // Вестник Дагестанского государственного технического университета. Технические науки. 2019. Т. 46. № 2. С. 148–158.
16. Salamanova M.Sh., Aliyev S.A., Murtazayev R. S-A. The structure and properties of binders alkaline activation using cement dust. Vestnik Dagestanskogo gosudarstvennogo tekhnicheskogo universiteta. Tekhnicheskie nauki. 2019. Vol. 46. No. 2, pp. 148–158. (In Russian).
17. Kozhukhova N.I., Chizhov R.V., Zhernovsky I.V., Strokova V.V. Structure formation of geopolymer perlite binder vs. Type of alkali activating agent. ARPN Journal of Engineering and Applied Sciences. 2016. Vol. 11. Issue 20, pp. 12275–12281.
18. Удодов С.А., Гиш М.Р. Влияние дозировки редиспергируемого порошка на локализацию полимера и деформационные свойства раствора // Научные труды Кубанского государственного технологического университета. 2015. № 9. С. 164–174.
18. Udodov S.A., Gish M.R. The effect of dosage of redispersible powder on the localization of the polymer and the deformation properties of the solution. Nauchnye trudy Kubanskogo gosudarstvennogo tekhnologicheskogo universiteta. 2015. No. 9, рp. 164–174. (In Russian).
19. Murtazaev S-A.Yu., Salamanova M.Sh., Ismailova Z.Kh. The Use of highly active additives for the рroduction of clinkerless binders. Proceedings of the International Symposium “Engineering and Earth Sciences: Applied and Fundamental Research” (ISEES 2018). https://doi.org/10.2991/isees-18.2018.68
20. Salamanova M.Sh., Murtazayev S. Yu. Clinker-free binders based on finely dispersed mineral components. 20 Internationale Baustofftagung, Tagungsbericht. 12–14 September 2018, Bauhaus-Universität Weimar. Band 1 und 2. Weimar: 2018. В. 2, рр. 707–714.
1. Shchelochnye i shchelochnozemel’nye gidravlicheskie vyazhushchie i betony. Pod redaktsiey V.D. Glukhovskogo [Alkaline and alkaline earth hydraulic binders and concrete]. Kiev: Vishcha shkola. 1979. 232 р.
2. Глуховский В.Д., Пахомов В.А. Шлакощелочные цементы и бетоны. Киев: Будiвельник, 1978. 184 с.
2. Glukhovskiy V.D., Pakhomov V.A. Shlakoshchelochnye tsementy i betony [Slag-alkali cements and concretes]. Kiev: Budivel’nik. 1978. 184 р.
3. Кривенко П.В., Пушкарева К.К. Долговечность шлакощелочного бетона. Киев: Будiвельник, 1993. 224 с.
3. Krivenko P.V., Pushkareva K.K. Dolgovechnost’ shlakoshchelochnogo betona. [Durability of slag-alkali concrete]. Kiev: Budivel’nik. 1993. 224 р.
4. Davidovits J. Geopolymer Chemistry and applications. Saint-Quentin: Institute Geopolymer. 2008. 592 p.
5. Duxson P., Fernández-Jiménez A., Provis J., Lukey G., Palomo A., Van Deventer J. Geopolymer technology: the current state of the art. Journal of Materials Science. Vol. 42, pp. 2917–2933. DOI: 10.1007/s10853-006-0637-z
6. Bataev D.K-S.,Murtazaev S-A.Yu., Salamanova M.Sh. Fine-grained concretes on non-clinker binders with highly disperse mineral components. Materials Science Forum. 2018. Vol. 931, pp. 552–557. DOI: https://doi.org/10.4028/www.scientific.net/MSF.931.552
7. Саламанова М.Ш., Муртазаев С.-А.Ю. Цементы щелочной активации: возможность снижения энергоемкости получения строительных композитов // Строительные материалы. 2019. № 7. С. 32–40. DOI: https://doi.org/10.31659/0585-430X-2019-772-7-32-40
7. Salamanova M.Sh., Murtazaev S.-A.Yu. Cements of alkaline activation the possibility of reducing the energy intensity of building composites. Stroitel’nye Materialy [Construction Materials]. 2019. No. 7, pp. 32–40. (In Russian). DOI: https://doi.org/10.31659/0585-430X-2019-772-7-32-40
8. Муртазаев С-А.Ю., Саламанова М.Ш. Перспективы использования термоактивированного сырья алюмосиликатной природы // Приволжский научный журнал. 2018. Т. 46. № 2. С. 65–70.
8. Murtazayev S-A.Yu., Salamanova M.Sh. Prospects of the use of thermoactivated raw material of alumosilicate nature. Privolzhskii nauchnyi zhurnal. 2018. Vol. 46. No. 2, pp. 65–70. (In Russian).
9. Никифоров Е.А., Логанина В.И., Симонов Е.Е. Влияние щелочной активации на структуру и свойства диатомита // Вестник БГТУ им. В.Г. Шу-хова. 2011. № 2. С. 30–32.
9. Nikiforov E.A., Loganina V.I., Simonov E.E. The effect of alkaline activation on the structure and properties of diatomite. Vestnik BGTU im. V.G. Shu-khova. 2011. No. 2, pp. 65–70. (In Russian).
10. Nesvetaev G., Koryanova Y., Zhilnikova T. Оn effect of superplasticizers and mineral additives on shrinkage of hardened cement paste and concrete. MATEC Web of Conferences. 27th Russian-Polish-Slovak SEMINAR, theoretical foundation of civil engineering (27RSP), TFOCE. Rostov-on-Don, 17–21 September 2018. 04018.
11. Stelmakh S.A., Nazhuev M.P., Shcherban E.M., Yanovskaya A.V., Cherpakov A.V. Selection of the composition for centrifuged concrete, types of centrifuges and compaction modes of concrete mixtures. Physics and Mechanics of New Materials and Their Applications (PHENMA 2018). Abstracts & Schedule. Busan, Republic of Korea, 9–11 August 2018, p. 337.
12. Shuisky A., Stelmakh S., Shcherban E., Torlina E. Recipe-technological aspects of improving the properties of non-autoclaved aerated concrete MATEC Web Conference. Vol. 129. International Conference on Modern Trends in Manufacturing Technologies and Equipment (ICMTMTE 2017). 2017. 05011. https://doi.org/10.1051/matecconf/201712905011
13. Солдатов А.А., Сариев И.В., Жаров М.А., Абдураимова М.А. Строительные материалы на основе жидкого стекла. Актуальные проблемы строительства, транспорта, машиностроения и техносферной безопасности: Материалы IV ежегодной научно-практической конференции Севе-ро-Кавказского федерального университета. Н.И. Стоянов (ответственный редактор). Ставрополь. 2016. С. 192–195.
13. Soldatov A.A., Sariev I.V., Zharov M.A., Abduraimova M.A. Building materials based on liquid glass. Actual problems of construction, transport, mechanical engineering and technosphere safety: Materials of the IV annual scientific and practical conference of the North Caucasus Federal University. N.I. Stoyanov (executive editor). Stavropol’. 2016, рр. 192–195. (In Russian).
14. Martschuk V., Stark T.Untersuchungen zurn Frost-Tausalz-Widerstaud von Mochleistungsbetonen. Thesis: Wiss. Z. Bauhaus -Univ. Weimar. 1998. V. 44. No. 1–2, рр. 92–103.
15. Larbi J.A., Bijen J.M. Effect of water-cement ratio, quantity and fineness of sand on the evolution of lime in set Portland cement systems. Cement and Concreate Research. 1990. Vol. 20. No. 5, pp. 783–794.
16. Саламанова М.Ш., Алиев С.А., Муртазаева Р.С.-А.Структура и свойства вяжущих щелочной активации с использованием цементной пыли // Вестник Дагестанского государственного технического университета. Технические науки. 2019. Т. 46. № 2. С. 148–158.
16. Salamanova M.Sh., Aliyev S.A., Murtazayev R. S-A. The structure and properties of binders alkaline activation using cement dust. Vestnik Dagestanskogo gosudarstvennogo tekhnicheskogo universiteta. Tekhnicheskie nauki. 2019. Vol. 46. No. 2, pp. 148–158. (In Russian).
17. Kozhukhova N.I., Chizhov R.V., Zhernovsky I.V., Strokova V.V. Structure formation of geopolymer perlite binder vs. Type of alkali activating agent. ARPN Journal of Engineering and Applied Sciences. 2016. Vol. 11. Issue 20, pp. 12275–12281.
18. Удодов С.А., Гиш М.Р. Влияние дозировки редиспергируемого порошка на локализацию полимера и деформационные свойства раствора // Научные труды Кубанского государственного технологического университета. 2015. № 9. С. 164–174.
18. Udodov S.A., Gish M.R. The effect of dosage of redispersible powder on the localization of the polymer and the deformation properties of the solution. Nauchnye trudy Kubanskogo gosudarstvennogo tekhnologicheskogo universiteta. 2015. No. 9, рp. 164–174. (In Russian).
19. Murtazaev S-A.Yu., Salamanova M.Sh., Ismailova Z.Kh. The Use of highly active additives for the рroduction of clinkerless binders. Proceedings of the International Symposium “Engineering and Earth Sciences: Applied and Fundamental Research” (ISEES 2018). https://doi.org/10.2991/isees-18.2018.68
20. Salamanova M.Sh., Murtazayev S. Yu. Clinker-free binders based on finely dispersed mineral components. 20 Internationale Baustofftagung, Tagungsbericht. 12–14 September 2018, Bauhaus-Universität Weimar. Band 1 und 2. Weimar: 2018. В. 2, рр. 707–714.
For citation: Salamanova M.Sh., Murtazaev S.-A.Yu., Nakhaev M.R. Possible alternative solutions to problems in the cement industry. Stroitel’nye Materialy [Construction Materials]. 2020. No. 1–2, pp. 73–77. (In Russian). DOI: https://doi.org/10.31659/0585-430X-2020-778-1-2-73-77