AbstractAbout AuthorsReferences
The concrete scrap is a main type of waste of construction and demolition of shabby buildings. Filler is received as a result of crushing of concrete scrap. It can be repeatedly used in production of concrete mix. One more valuable withdrawal of construction and demolition is glass. It as filler in concrete can be also used. The purpose of this work is influence studying the retsiklirovannykh of fillers and glass on characteristics of hollow wall concrete blocks. Tests were carried out on four groups of concrete blocks. They contained a portlandtsement, retsiklirovanny filler, retsiklirovanny glass and supersoftener. One group of blocks didn’t contain retsiklirovanny materials. In work properties of the concrete mixes and blocks received on their basis were investigated.
P.Y. MATAR1 , Ph.D. (This email address is being protected from spambots. You need JavaScript enabled to view it..l);
V.B. PETROPAVLOVSKAYA2 , Candidate of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.),
T.R. BARKAYA2 , Candidate of Sciences (Engineering);
M.F. BAYSSARY1 , M.Sc.,
L.S. EL-HASSANIEH1 , B.Eng.
V.B. PETROPAVLOVSKAYA2 , Candidate of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.),
T.R. BARKAYA2 , Candidate of Sciences (Engineering);
M.F. BAYSSARY1 , M.Sc.,
L.S. EL-HASSANIEH1 , B.Eng.
1 Lebanese University (P.O. Box 399, Jounieh, Badaro, Museum, Beirut - Lebanon)
2 Tver State Technical University (170026, Tver, A. Nikitina Embankment, 22, Russian Federation)
1. Трамбовецкий В.П. Новые подходы к технологии бетона и перспективы ее развития // Технологии бетонов. 2013. № 4. С. 37–39. Trambovetskiy V.P. New approaches to technology of concrete and prospect of its development. Tekhnologii betonov. 2013. No. 4, pp. 37–39. (In Russian).
2. 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, pp. 368–377.
3. Проблема утилизации строительных отходов в России // Экопрогресс. Электронный журнал. http:// ecoprogress.pro/econews/latest-issue/actual/ actual_409.html (дата обращения 06.11.2015). Problem of recycling of construction waste in Russia. Ekoprogress. Electronic journal. http://ecoprogress.pro/ econews/latest-issue/actual/actual_409.html (date of access 06.11.2015). (In Russian).
4. Leshchinsky A., Lesinskij M. Concrete aggregate from construction and demolition waste. BFT International. 2003. No. 8, pp. 14–22.
5. Hendricks C.F., Pietersen H.S. Concrete: Durable, but also sustainable? Proceedings of the International Symposium “Sustainable Construction: Use of Recycled Concrete Aggregate”. London. 11–12 November 1998, pp. 1–18.
6. Roos F., Zilch K. Verification of the dimensioning values for concrete with recycled concrete aggregate. Proceedings of the International Symposium “Sustainable Construction: Use of Recycled Concrete Aggregate”. London. 11–12 November 1998, pp. 309–319.
7. RILEM TC 121-DRG: Guidance for demolition and reuse of concrete and masonry – Specifications for concrete with recycled aggregates – RILEM recommendation. Materials and Structures. 1994. No. 27, pp. 557–559.
8. El Dalati R., Matar P. On the road to get structural recycled concrete. Materials Science and Engineering Technology (Materialwissenschaft und Werkstofftechnik). 2011. Vol. 42. No. 5, pp. 398–402.
9. Poon C.S., Lam C.S. The effect of aggregate-to-cement ratio and types of aggregates on the properties of precast concrete blocks. Cement and Concrete Composites. 2008. No. 30, pp. 283–289.
10. Chakradhara Rao M., Bhattacharyya S.K., Barai S.V. Behaviour of recycled aggregate concrete under drop weight impact load. Construction and Building Materials. 2011. No. 25, pp. 69–80.
11. Rao A., Jha K.N., Misra S. Use of aggregates from recycled construction and demolition waste in concrete. Resources, Conservation and Recycling. 2007. No. 50, pp. 71–81.
12. Nealen A., Schenk S. The influence of recycled aggregate core moisture on freshly mixed and hardened concrete properties. Darmstadt Concrete – Annual Journal. 1998. Vol. 13, pp. 322–336.
13. Pimienta P., Tran T., Delmotte P., Colombard-Prout M. Recycled aggregate used for making building blocks. Proceedings of the International Symposium “Sustainable Construction – Use of Recycled Concrete Aggregate”. London. 11–12 November 1998, pp. 297–307.
14. Poon C.S., Kou S.C., Wan H.W., Etxeberria M. Properties of concrete blocks prepared with low grade recycled aggregates. Waste Management. 2009. No. 29, pp. 2369–2377.
15. Xiao Z., Ling T.C., Kou S.C., Wang Q., Poon C.S. Use of wastes derived from earthquakes for the production of concrete masonry partition wall blocks. Waste Management. 2011. No. 31, pp. 1859–1866.
16. Kou S.C., Zhan B.J., Poon C.S. Properties of partition wall blocks prepared with fresh concrete wastes. Construction and Building Materials. 2012. No. 36, pp. 566–571.
17. Matar P., El Dalati R. Strength of masonry blocks made with recycled concrete aggregates. Physics Procedia. 2011. No. 21. pp. 180–186.
18. Shao Y., Lefort T., Moras S., Rodriguez D. Studies on concrete containing ground waste glass. Cement and Concrete Research. 2000. Vol. 30. No. 1, pp. 91–100.
19. 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. 2007. Greenwich. 15 September 2007, pp. 1–7.
20. Ucol-Ganiron T.Jr. Recycled window glass for non-load bearing walls. International Journal of Innovation, Management and Technology. 2012. Vol. 3. No. 6, pp. 725–730.
21. Clean Washington Center (CWC). Best practices in glass recycling: Recycled glass in Portland cement concrete. November 1996, pp. 1–2.
22. Meyer C., Egosi N., Andela C. Concrete with waste glass as aggregate. Proceedings of the International Symposium Concrete Technology Unit of ASCE and University of Dundee “Recycling and Re-use of Glass Cullet”. 19–20 March 2001. 9 p.
23. Lee J. Utilization of solid wastes as aggregates in concrete. Journal of Waste Glass and Rubber Particles. 2003. Vol. 3, pp. 123–134.
24. Somayaji S. Civil Engineering Materials. New York: Pearson Education. 2001. 351 p.
2. 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, pp. 368–377.
3. Проблема утилизации строительных отходов в России // Экопрогресс. Электронный журнал. http:// ecoprogress.pro/econews/latest-issue/actual/ actual_409.html (дата обращения 06.11.2015). Problem of recycling of construction waste in Russia. Ekoprogress. Electronic journal. http://ecoprogress.pro/ econews/latest-issue/actual/actual_409.html (date of access 06.11.2015). (In Russian).
4. Leshchinsky A., Lesinskij M. Concrete aggregate from construction and demolition waste. BFT International. 2003. No. 8, pp. 14–22.
5. Hendricks C.F., Pietersen H.S. Concrete: Durable, but also sustainable? Proceedings of the International Symposium “Sustainable Construction: Use of Recycled Concrete Aggregate”. London. 11–12 November 1998, pp. 1–18.
6. Roos F., Zilch K. Verification of the dimensioning values for concrete with recycled concrete aggregate. Proceedings of the International Symposium “Sustainable Construction: Use of Recycled Concrete Aggregate”. London. 11–12 November 1998, pp. 309–319.
7. RILEM TC 121-DRG: Guidance for demolition and reuse of concrete and masonry – Specifications for concrete with recycled aggregates – RILEM recommendation. Materials and Structures. 1994. No. 27, pp. 557–559.
8. El Dalati R., Matar P. On the road to get structural recycled concrete. Materials Science and Engineering Technology (Materialwissenschaft und Werkstofftechnik). 2011. Vol. 42. No. 5, pp. 398–402.
9. Poon C.S., Lam C.S. The effect of aggregate-to-cement ratio and types of aggregates on the properties of precast concrete blocks. Cement and Concrete Composites. 2008. No. 30, pp. 283–289.
10. Chakradhara Rao M., Bhattacharyya S.K., Barai S.V. Behaviour of recycled aggregate concrete under drop weight impact load. Construction and Building Materials. 2011. No. 25, pp. 69–80.
11. Rao A., Jha K.N., Misra S. Use of aggregates from recycled construction and demolition waste in concrete. Resources, Conservation and Recycling. 2007. No. 50, pp. 71–81.
12. Nealen A., Schenk S. The influence of recycled aggregate core moisture on freshly mixed and hardened concrete properties. Darmstadt Concrete – Annual Journal. 1998. Vol. 13, pp. 322–336.
13. Pimienta P., Tran T., Delmotte P., Colombard-Prout M. Recycled aggregate used for making building blocks. Proceedings of the International Symposium “Sustainable Construction – Use of Recycled Concrete Aggregate”. London. 11–12 November 1998, pp. 297–307.
14. Poon C.S., Kou S.C., Wan H.W., Etxeberria M. Properties of concrete blocks prepared with low grade recycled aggregates. Waste Management. 2009. No. 29, pp. 2369–2377.
15. Xiao Z., Ling T.C., Kou S.C., Wang Q., Poon C.S. Use of wastes derived from earthquakes for the production of concrete masonry partition wall blocks. Waste Management. 2011. No. 31, pp. 1859–1866.
16. Kou S.C., Zhan B.J., Poon C.S. Properties of partition wall blocks prepared with fresh concrete wastes. Construction and Building Materials. 2012. No. 36, pp. 566–571.
17. Matar P., El Dalati R. Strength of masonry blocks made with recycled concrete aggregates. Physics Procedia. 2011. No. 21. pp. 180–186.
18. Shao Y., Lefort T., Moras S., Rodriguez D. Studies on concrete containing ground waste glass. Cement and Concrete Research. 2000. Vol. 30. No. 1, pp. 91–100.
19. 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. 2007. Greenwich. 15 September 2007, pp. 1–7.
20. Ucol-Ganiron T.Jr. Recycled window glass for non-load bearing walls. International Journal of Innovation, Management and Technology. 2012. Vol. 3. No. 6, pp. 725–730.
21. Clean Washington Center (CWC). Best practices in glass recycling: Recycled glass in Portland cement concrete. November 1996, pp. 1–2.
22. Meyer C., Egosi N., Andela C. Concrete with waste glass as aggregate. Proceedings of the International Symposium Concrete Technology Unit of ASCE and University of Dundee “Recycling and Re-use of Glass Cullet”. 19–20 March 2001. 9 p.
23. Lee J. Utilization of solid wastes as aggregates in concrete. Journal of Waste Glass and Rubber Particles. 2003. Vol. 3, pp. 123–134.
24. Somayaji S. Civil Engineering Materials. New York: Pearson Education. 2001. 351 p.
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