A.D. ZHUKOV1,2, Candidate of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.);
P.M. ZHUK3, Doctor of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.);
B.A. DEMISSI2, Postgraduate Student (This email address is being protected from spambots. You need JavaScript enabled to view it.);
I.S. GOVRYAKOV1,2, Engineer, Student (This email address is being protected from spambots. You need JavaScript enabled to view it.);
A.M. MINAEVA2, Student (This email address is being protected from spambots. You need JavaScript enabled to view it.)
1 Research Institute of Building Physics, Russian Academy of Architecture and Construction Sciences (21, Lokomotivniy Driveway, Moscow, 127238, Russian Federation)
2 National Research Moscow State University of Civil Engineering (26, Yaroslavskoe Highway, Moscow, 129337, Russian Federation)
3 Moscow Architectural Institute – MARKHI (11/4, Rozhdestvenka Street, building 1, sector 4, Moscow, 107031, Russian Federation)
2. Танг Ван Лам, Нго Суан Хунг, Ву Ким Зиен, Булгаков Б.И., Баженова С.И., Александрова О.В. Геополимерный бетон с использованием многотоннажных техногенных отходов // Строительство: наука и образование. 2021. № 2. С. 17–37. DOI: 10.22227/2305-5502.2021.2.2
2. Tang Van Lam, Ngo Suan Khung, Vu Kim Zien, Bulgakov B.I., Bazhenova S.I., Aleksandrova O.V. Geopolymer concrete using multi-tonnage technogenic waste. Stroitelstvo, nauka, obrazovanie. 2021. Vol. 11. No. 2, pp. 17–37. (In Russian). DOI: 10.22227/2305-5502.2021.2.2
3. Ramachandran V.S. (ed) Concrete Admixtures Handbook – Properties, Science and Technology. 2-nd ed. William Andrew Publishing, New York. 1995. 1066 p.
4. Seiichi Hoshino, Kazuo Yamada, Hiroshi Hirao, XRD/Rietveld analysis of the hydration and strength development of slag and limestone blended cement. Journal of Advanced Concrete Technology. 2006. Vol. 4. No. 3, pp. 357–367. DOI: 10.3151/JACT.4.357
5. Mateusz Radlinski, Jan Olek. Investigation into the synergistic effects in ternary cementitious systems containing Portland cement, fly ash and silica fume. Cement&Concrete Composites. 2012. Vol. 34, рp. 451–459 https://doi.org/10.1016/j.cemconcomp.2011.11.014
6. Ву Ким Зиен, Баженова С.И., Танг Ван Лам. Влияние минеральных добавок, летучей золы, доменного шлака на механические свойства пенобетона // Строительство и реконструкция. 2020. № 2 (88). С. 25–34. DOI: https://doi.org/10.33979/2073-7416-2020-88-2-25-34
6. Vu Kim Zien, Bazhenova S.I., Tang Van Lam. Influence of mineral additives, fly ash, blast furnace slag on the mechanical properties of foam concrete. Stroitel’stvo i rekonstruktsiya. 2020. No. 2 (88), pp. 25–34. DOI: https://doi.org/10.33979/2073-7416-2020-88-2-25-34
7. Vitruvius M. Ten books on architecture. Ingrid Rowland T.N. Howe. 1999, 2014. Cambridge University Press. 324 p. DOI: 10.1017/CBO9780511840951
8. Zhukov A.D., Bessonov I.V., Demissi Bekele A., Zinoveva E.A. Analytical optimization of the dispersion-reinforced fine-grained concrete composition. CATPID 2020. IOP Conf. Series: Materials Science and Engineering. 1083. (2021) 012037. doi:10.1088/1757-899X/1083/1/012037
9. Рахимов Р.З., Рахимова Н.Р. Строительство и минеральные вяжущие прошлого, настоящего и будущего // Строительные материалы. 2013. № 1. С. 124–128.
9. Rakhimov R.Z., Rakhimova N.R. Construction and mineral binders of the past, present and future. Stroitel’nye Materialy [Construction Materials]. 2013. No. 1, pp. 124–128. (In Russian).
10. Sigh N.D., Middendort B. Chemistry of blended cements. Silica fume, metacaolin, reactive ash from agricultural wastes, inert materials and non-Portland blended cements. Cement International. 2009. Vol. 7. No. 6, рр. 78–92.
11. Fernandez R., Martirena F., Scrivener K.L. The origin of the pozzolanic activity of calcined clay minerals: A comparison between kaolinite, illite and montmorillonite. Cement and Concrete Research. 2001. Vol. 41 (1), рр. 113–122. https://doi.org/10.1016/j.cemconres.2010.09.013
12. Shannag M., Charif A., Naser S., Faisal F., Karim A. Structural behavior of lightweight concrete made with scoria aggregates and mineral admixtures. International Conference World Academy of Science, Engineering and Technology. London, UK. 2014. Vol. 8, рр. 105–109. DOI: 10.13140/2.1.4582.1124
13. Рахимов Р.З., Рахимова Н.Р., Гайфуллин А.Р., Стоянов О.В. Влияние добавки в портландцемент прокаленной и молотой полиминеральной каолинитсодержащей глины на прочность цементного камня // Вестник Казанского технологического университета. 2015. № 5. С. 80–83.
13. Rakhimov R.Z., Rakhimova N.R., Gayfullin A.R., Stoyanov O.V. The effect of the addition of calcined and young polymineral kaolinite-containing clay to Portland cement on the strength of cement stone. Vestnik of Kazan Technological University. 2015. Vol. 18. No. 5, pp. 80–83.
14. Bessonov I.V., Ushakov A.Yu., Zhukov A.D., Vidiborenko V.G. Assessment of light concrete frost resistance. International Science and Technology Conference (FarEastСon 2020). IOP Conf. Series: Materials Science and Engineering. 1079 (2021) 022078. doi:10.1088/1757-899X/1079/2/022078
15. Tchamdjou W.H.J., Grigoletto S., Michel F., Courard L., Abidi M.L., Cherradi T. An investigation on the use of coarse volcanic scoria as sand in Portland cement mortar. Case Studies in Construction Materials. 2017. No. 7, pp. 191–206. https://doi.org/10.1016/j.cscm.2017.07.005
16. Николаенко Е.А. Исследования пуццолановых портландцементов на основе эффузивных горных пород // Известия вузов. Инвестиции. Строительство. Недвижимость. 2014. № 1 (6). С. 66–73.
16. Nikolaenko E.A. Studies of pozzolan Portland cement based on effusive rocks. Izvestiya vuzov. Investitsii. Stroitel’stvo. Nedvizhimost’. 2014. No. 1, pp. 69–73. (In Russian).
17. Бутт Ю.М., Сычев М.М., Тимашев В.В. Химическая технология вяжущих материалов. М.: Высшая школа, 1980. 472 с.
17. Butt Yu.M., Sychev M.M., Timashev V.V. Khimicheskaya tekhnologiya vyazhushchikh materialov [Chemical technology of binders]. Moscow: Vysshaya shkola. 1980. 472 p.
18. Жуков А.Д., Боброва Е.Ю., Бессонов И.В., Медведев А.А., Демисси Б.А. Применение статистических методов для решения задач строительного материаловедения // Нанотехнологии в строительстве: Науч-ный интернет-журнал. 2020. Т. 12. №. 6. С. 313–319. DOI: 10.15828/2075-8545-2020-12-6-313-319
18. Zhukov A.D., Bobrova E.Yu., Bessonov I.V., Medvedev A.A., Demissi B.A. Application of statistical methods for solving problems of building materials science. Nanotekhnologii v stroitel’stve: nauchnyi internet zhurnal. 2020. Vol. 12. No. 6, pp. 313–319. (In Russian). DOI: 10.15828/2075-8545-2020-12-6-313-319
19. Жуков А.Д., Боброва Е.Ю., Бессонов И.В., Горбунова Э.А., Демисси Б.А. Материалы на основе модифицированного гипса для фасадных систем // Нанотехнологии в строительстве: Научный интернет-журнал. 2021. Т. 13. № 3. С. 144–149.
19. Zhukov A.D., Bessonov I.V., Bobrova E.Yu., Gorbunova E.A., Demissie B.A. Materials based on modified gypsum for facade systems. Nanotekhnologii v stroitel’stve: nauchnyi internet zhurnal. 2021. Vol. 13 (3), pp. 144–149. (In Russian). DOI: 10.15828/2075-8545-2021-13-3-144-149
20. Потапова Е.Н., Манушина А.С., Зырянов М.С., Урбанов А.В. Методы определения пуццолановой активности минеральных добавок // Строительные материалы: оборудование, технологии XXI века. 2017. № 7–8. С. 29–33.
20. Potapova E.N., Manushina A.S., Zyryanov M.S., Rubanov A.V. Methods for determining the pozzolan activity of mineral additives. Stroitel’nye materialy: oborudovanie, tekhnologii XXI veka. 2017. No. 7–8, pp. 29–33. (In Russian).
For citation: Bessonov I.V., Zhukov A.D., Zhuk P.M., Demissi B.A., Govryakov I.S., Minaeva A.M. Volcanic tuff as an active mineral additive for portland cement. Stroitel’nye Materialy [Construction Materials]. 2022. No. 6, pp. 25–29. (In Russian). DOI: https://doi.org/10.31659/0585-430X-2022-803-6-25-29