AbstractAbout AuthorsReferences
It is shown that the promising direction of recycling of household waste glass (cullet) is its use in the compositions of bitumen-mineral compositions for road construction. The compositions of fine-grained bitumen-mineral compositions with the inclusion of cullet fractions of 20-5 mm are proposed, and a comparative analysis of the influence of different content fractions of cullet on physical and mechanical properties of the proposed compositions is made. It is revealed that the use of cullet significantly reduces the bitumen content and density of bitumen-mineral compositions. Rational limits of cullet content in fine-grained bitumen-mineral compositions, which make up no more than 36–40% of the mass, have been established. It is shown that the shear resistance and crack resistance of bitumen-mineral compositions with rational content of cullet in the mixture meet the requirements of GOST.
Yu.G. BORISENKO, Candidate of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.)
R.M. AZAN, Engineer (This email address is being protected from spambots. You need JavaScript enabled to view it.)
D.P. SHVACHEV, Engineer, (This email address is being protected from spambots. You need JavaScript enabled to view it.)
D.A. VOROBIEV, Engineer (This email address is being protected from spambots. You need JavaScript enabled to view it.)
R.M. AZAN, Engineer (This email address is being protected from spambots. You need JavaScript enabled to view it.)
D.P. SHVACHEV, Engineer, (This email address is being protected from spambots. You need JavaScript enabled to view it.)
D.A. VOROBIEV, Engineer (This email address is being protected from spambots. You need JavaScript enabled to view it.)
North-Caucasus Federal University (1, Pushkina Street, Stavropol, 355009, Russian Federation)
1. Cocking R. The challenge for glass recycling. Sustainable Waste Manage: Proceedings of the International Symposium. 9–11 September 2003. Dundee UK, pp. 73–78.
2. Yegorov K.I., Mamina N.A. Glass waste – ecology, information, business. Stroitel’nye Materialy. [Construction Materials]. 1998. No. 10, pp. 33. (In Russian).
3. Glusing A.K., Conradt R. Dissolution kinetics of recycled crops in recycled cullet. Recycling and Reuse of Glass: Proceedings of International Symposium. 19–20 March 2001. Dundee UK, pp. 29–41.
4. Meyer C. Recycled glass – from waste material to valuable resource. Recycling and Reuse of glass Cullet: Proceedings of International Symposium. 19–20 March 2001. Dundee UK, pp. 1–10.
5. Melkonyan R.G., Vlasova S.G. Ecologicheskie y economicheskie problem ispol’zovania stekloboya v proizvodstve stekla [Environmental andeconomic problems of the use of cullet in the production of glass]. Ekaterinburg: Publishing house Ural. University, 2013. 100 p.
6. Belyaev I.D. Disposal and recycling of cullet. International Scientific and Technical Conference of Young Scientists BSTU named after V.G. Shukhov. 2017, pp. 36–38. (In Russian).
7. Ketov P.A., Puzanov S.I., Koranov V.S. The use of the binding properties of dispersed silicate glasses in the recycling of cullet. Stroitel’nye Materialy [Construction Materials]. 2007. No. 5, pp. 66–67. (In Russian).
8. Rossomagina A.S., Puzanov I.S. Development of stack loboy recycling processes by creating composite materials. Ecological and economic problems of mineral resources development Abstracts of the International Scientific Conference. 2005, pp. 83–84. (In Russian).
9. Meland I., Dahl P.A., Recycling glass cullet as concrete aggregates, applicability and durability. Recycling and Reuse of Glass Cullet: Proceedings of International Symposium. 19–20 March 2001. Dundee UK, pp. 167–177.
10. Pavlushkin T.K., Kiselenko N.G. The use of glass breakage in the production of building materials. Steklo I Keramika. 2011. No. 5, pp. 27–34. (In Russian)
11. Minko N.I., Kalatozi V.V. The use of cullet in the technology of materials for construction purposes. Bulletin of BSTU named after V.G. Shukhov. 2018. No. 1, pp. 82–86. (In Russian).
12. Chuprova L.V., Mishurina O.A. Ecological and economic aspects of waste recycling of glass. International Journal of Applied and Fundamental Research. 2016. No. 11, pp. 222–225.
13. Zaitsev E.I. Construction unburned composites based on the cullet of technical glasses. Rossiiskii khimicheskii zhurnal. 2003. Vol. XLVII. No. 4, pp. 26–31. (In Russian).
14. Miller I.J., Bailey M.D. Uses for waste glass a survey. Report. 1981. No. 2289. p. 33.
2. Yegorov K.I., Mamina N.A. Glass waste – ecology, information, business. Stroitel’nye Materialy. [Construction Materials]. 1998. No. 10, pp. 33. (In Russian).
3. Glusing A.K., Conradt R. Dissolution kinetics of recycled crops in recycled cullet. Recycling and Reuse of Glass: Proceedings of International Symposium. 19–20 March 2001. Dundee UK, pp. 29–41.
4. Meyer C. Recycled glass – from waste material to valuable resource. Recycling and Reuse of glass Cullet: Proceedings of International Symposium. 19–20 March 2001. Dundee UK, pp. 1–10.
5. Melkonyan R.G., Vlasova S.G. Ecologicheskie y economicheskie problem ispol’zovania stekloboya v proizvodstve stekla [Environmental andeconomic problems of the use of cullet in the production of glass]. Ekaterinburg: Publishing house Ural. University, 2013. 100 p.
6. Belyaev I.D. Disposal and recycling of cullet. International Scientific and Technical Conference of Young Scientists BSTU named after V.G. Shukhov. 2017, pp. 36–38. (In Russian).
7. Ketov P.A., Puzanov S.I., Koranov V.S. The use of the binding properties of dispersed silicate glasses in the recycling of cullet. Stroitel’nye Materialy [Construction Materials]. 2007. No. 5, pp. 66–67. (In Russian).
8. Rossomagina A.S., Puzanov I.S. Development of stack loboy recycling processes by creating composite materials. Ecological and economic problems of mineral resources development Abstracts of the International Scientific Conference. 2005, pp. 83–84. (In Russian).
9. Meland I., Dahl P.A., Recycling glass cullet as concrete aggregates, applicability and durability. Recycling and Reuse of Glass Cullet: Proceedings of International Symposium. 19–20 March 2001. Dundee UK, pp. 167–177.
10. Pavlushkin T.K., Kiselenko N.G. The use of glass breakage in the production of building materials. Steklo I Keramika. 2011. No. 5, pp. 27–34. (In Russian)
11. Minko N.I., Kalatozi V.V. The use of cullet in the technology of materials for construction purposes. Bulletin of BSTU named after V.G. Shukhov. 2018. No. 1, pp. 82–86. (In Russian).
12. Chuprova L.V., Mishurina O.A. Ecological and economic aspects of waste recycling of glass. International Journal of Applied and Fundamental Research. 2016. No. 11, pp. 222–225.
13. Zaitsev E.I. Construction unburned composites based on the cullet of technical glasses. Rossiiskii khimicheskii zhurnal. 2003. Vol. XLVII. No. 4, pp. 26–31. (In Russian).
14. Miller I.J., Bailey M.D. Uses for waste glass a survey. Report. 1981. No. 2289. p. 33.
For citation: Borisenko Yu.G., Azan P.M., Shvachev D.P., Vorobiev D.A. Bitumen-mineral compositions for road construction with the use of household waste glass (cullet). Stroitel’nye Materialy [Construction Materials]. 2019. No. 5, pp. 51–56. (In Russian). DOI: https://doi.org/10.31659/0585-430X-2019-770-5-51-56