The technology of glass concrete based on dispersed container and sheet glass has been developed. It is shown that when Portland cement and cullet are ground together, when a specific surface area of 5890 – 6450 cm2/g and a particle size of 3.4 – 3.6 microns with a dispersed glass content in the composite of 20 – 50 wt. % with hyperplasticizer glass concrete corresponds to class B30 – B40, which meets the requirements of regulatory documents. The microstructure of glass concrete and the features of its dehydration when heated to 1000 °C investigated. Using X-ray phase analysis, it was found that sodium-calcium hydroaluminosilicates such as gmelenite and thomsonite are formed in glass concrete.
Nina I. Min?ko – Doctor of Technical Sciences, Professor of the Department of Glass and Ceramics Technology, Belgorod State Technological University named after V. G. Shukhov, Academician of the Russian Academy of Natural Sciences, Belgorod, Russia.E-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Vasiliy S. Bessmertnyi – doctor of Technical Sciences, Professor of the Department of Standardization and Quality Management, Belgorod State Technological University named after V. G. Shukhov, Belgorod, Russia.E-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Natalia M. Zdorenko – Candidate of Technical Sciences, Head of the Business Ideas Development Department of the Research Center, Belgorod University of Cooperation, Economics and Law, Belgorod, Russia. E-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Marina A. Bondarenko – postgraduate student of the Department Technology of Glass and Ceramics, Belgorod State Technological University named after V. G. Shukhov, Belgorod, Russia. E-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Elena V. Isaenko – Doctor of Economics, Professor, Rector Belgorod University of Cooperation, Economics and Law, Belgorod, Russia. E-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Elizaveta E. Tarasova – Doctor of Economics, Professor, First Vice-Rector for Scientific Work Belgorod University of Cooperation, Economics and Law, Belgorod, Russia. E-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Alexey V. Makarov – Candidate of Technical Sciences, Associate Professor, Head of the Department “Technologies and Equipment in Metallurgy and Mechanical Engineering” named after V. B. Krakht, Starooskolsky Technological Institute named after A. A. Ugarov (branch) of NUST MISIS, Stary Oskol, Russia. E-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Andrey V. Cherkasov – Candidate of Technical Sciences, Associate Professor of the Department Technologies of Cement and Composite Materials, Belgorod State Technological University named after V. G. Shukhov, Belgorod, Russia. E-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
1. Кузьмичева И. Г., Ишутин А. А., Овчинникова А. П. Разновидность стеклобетона // Современные технологии: актуальные вопросы, достижения и инновации: сб. ст. XVII Междунар. науч.-практ. конф. Пенза, 25 мая 2018 г. Пенза: МЦНС «Наука и просвещение», 2018. С. 92 – 94.
2. Ишутин А. А. Разнообразие видов бетона // Молодежь и системная модернизация страны – 2017: материалы 2-й Междунар. науч. конф. студентов и молодых ученых, Курск, 25 – 26 мая 2017 г. Курск, 2017. С. 270 – 272.
3. Зайцева Е. И. Строительные безобжиговые композиты на основе боя технических стекол // Российский химический журнал. 2003. Т. 47, № 4. С. 26 – 31.
4. Трамбовецкий В. П. Новые подходы к технологии бетона и перспективы его развития // Технология бетонов. 2013. № 4. С. 37 – 39.
5. Ucol-Ganiron T. Jr. Recycled window glass for non-load bearing walls // International Journal of Innovation, Management and Technology. 2012. V. 3, No. 6. P. 725 – 730.
6. Best practices in glass recycling: Recycled glass in Portland cement concrete // Clean Washington Center (CWC), November 1996. P. 1–2.
7. Кузьмичева И. Г., Ишутин А. А. Исследование свойств бетона с добавлением резиновой крошки // Современные проблемы в строительстве: постановка задач и пути их решения – 2017: материалы ежегодной Всерос. науч.-практ. конф. с международным участием, Курск, 20–21 декабря 2017 г. Курск, 2017.
8. Григорьев Д. О., Караваев А. А. Применение экологически чистого строительного материала – стеклобетона – в строительстве частного сектора // Регулирование земельно-имущественных отношений в России: правовое и геопространственное обеспечение, оценка недвижимости, экология, технологические решения. 2018. Т. 1. С. 133 – 136.
9. Плис Р. В., Шахмов Ж. А. Использование отходов стекла в качестве заполнителей портландцементного бетона // Велес. 2017. № 12-1 (54). С. 31 – 39.
10. Матар П. Ю., Петропавловская В. Б., Баркая Т. Р. и др. Пустотелые стеновые бетонные блоки с рециклированными заполнителями и стеклом // Строительные материалы. 2016. Март. С. 69 – 75.
11. Liang H., Zhu H., Byars E. A. Use of waste glass as aggregate in concrete // 7th UK Care Annual General Meeting. UK Chinese Association of Resources and Environment. Greenwich, 2007. P. 1 – 7.
12. Кетов П. А., Корзанов B. C., Пузанов С. И. Использование вяжущих свойств дисперсных силикатных стекол при утилизации стеклобоя // Строительные материалы. 2007. № 5. С. 2 – 3.
13. Somayaji S. Civil Engineering Materials. New York: Pearson Education, 2001. 351 p.
14. Lee J. Utilization of solid wastes as aggregates in concrete // Journal of Waste Glass and Rubber Particles. 2003. V. 3. P. 123 – 134.
15. Nassar R., Soroushian P. Strength and durability of recycled aggregate concrete containing milled glass as partial replacement for cement // Construction and Building Materials. 2012. No. 29. P. 368 – 377.
16. Sadowski L. Towards the utilization of waste glass powder in sustainable cement based overlays // MATEC Web of Conferences. 2018. V. 163. P. 03001.
17. Kumar S., Chaudhary M. Utilization of Waste Glass as Cement Replacement in PPC Concrete // International Journal of Trend in Scientific Research and Development. 2018. V. 2, Is. 3. P. 295 – 300.
18. Islam Sadiqul G. M., Rahman M. H., Kazi N. Waste glass powder as partial replacement of cement for sustainable concrete practice // International Journal of Sustainable Built Environment. 2017. V. 6, Is. 1. P. 37 – 44.
19. Бондаренко О. П., Гузий С. Г., Захарченко Е. Д. Стеклосодержащие шлакопортландцементные материалы // Science Rise. 2015. № 11/2 (16). С. 35 – 40.
20. Krivenko P. V., Pushkareva E. K. The durability of concrete shlakoshchelochnyh. Kyiv: Budivelnik, 1993. 224 c.
21. Строительные материалы: учеб.-справ. пособие // под ред. Г. А. Айрапетова, Г. В. Несветаева. Ростов н/Д: Феникс, 2004. 608 с.
22. Рамачандран В. С. Применение дифференциального термического анализа в химии цементов: пер. с англ. / под ред. В. Б. Ратинова. М.: Стройиздат, 1977. 408 с.
23. Соломатов В. И., Ерофеев В. Т. Структурообразование и свойства композитов на основе боя стекла // Изв. вузов. Строительство. 2000. № 9. С. 16 – 22.
The article can be purchased
electronic!
PDF format
700 руб
DOI: 10.14489/glc.2023.06.pp.030-040
Article type:
Research Article
Make a request
