Evaluating The Simultaneous Effect of Recycled PET Particles and Zeolite Pozzolan on The Mechanical and Durability Characteristics of Self-Compacting Eco-Friendly Concrete
Keywords:
Zeolite, Recycled Aggregate, Compressive Strength, Tensile Strength, Modulus Of Elasticity, DurabilityAbstract
In recent decades, self-compacting concrete has become popular due to its unique ability to fill molds with high reinforcement concentration and increase implementation speed and quality. Also, the use of recycled materials and natural pozzolans became one of the researchers’ desirable topics to reduce current expenses and decrease or eliminate environmental problems. Also, one of the appropriate strategies is to replace cement with powder and pozzolanic materials to decrease the heat of cement hydration and cope with the environmental impacts of cement production. On the other hand, plastic waste is adopted in many fields like construction and infrastructure to improve sustainability and reduce the depletion of natural resources. This research investigates the possibility of using zeolite as a cement replacement and waste plastic particles as an aggregate substitute which results in the manufacturing of eco-friendly self-compacting concrete. In this research, after reviewing compressive, tensile strength and modulus elasticity in self-compacting concrete involved in waste plastic particles and zeolite, an experimental relation among compressive strength and other mechanical parameters is obtained. Durable specifications of self-compacting concrete involved in water absorption and chlorine ion penetration at different ages also were conducted.
References
Ramzanianpour, Ali Akbar, Peidayesh, Maansour, recognition of concrete, Tehran, Publications of Amirkabir University of Technology, 2010
Sedaghatdoost, Arash, Akhavan Kharazian, Hamid, Nikvan, Peyman, Investigating the effects of zeolite on the compressive strength of light concrete, the first national concrete industry conference, International Center for advanced science and technology and environmental science, June 2012
N. Q. Feng and G. F. Peng, Applications of natural zeolite to construction and building materials in China, Construction and Building Materials, Volume 19, Issue 8, Pages 579,2005.
C. S. Poon, L. Lam, S. C. Kou and Z. S. Lin, A Study on the Hydration Rate of Natural Zeolite Blended Cement Pastes, Construction and Building Materials, Volume 13, Issue 8, Pages 427-432, 1999.
Th. Perraki, G. Kakali and F. Kontoleon, The Effect of natural zeolites on the early hydration of Portland cement, Microporous and Mesoporous Materials, Volume 61, Issues 1-3, Pages 205-212, 18, 2003.
N. Q. Feng, G. Z. Li and X. W. Zang, High- Strength and flowing Concrete with zeolitic mineral admixtures, Cement, Concrete and Aggregates, Volume 12, Issue 2, Pages 61-69,1990.
Sammy Y. N. Chan and XihuangJi, Comparative Study of the Initial Surface Absorption and Chloride Diffusion of High-Performance Zeolite, Silica Fume and PFA Concrete, Cement and Concrete Composites, Volume 21, Issue 5, Pages 293-300, 1999.
B. Uzal, L. Turanli, P.K.Mehta, High-volume natural pozzolan concrete for structural applications, ACI Materials Journal, Volume 104, Issue 5, Pages 535-538, 2007.
AhmadiBabak, Shekarchi Mohammad. Use of natural zeolite as a supplementary cementitious material, Cement & Concrete Composites, 32, 134-141, 2010
Chan SYN, Ji X. Comparative study of the initial surface absorption and chloride diffusion of high performance zeolite, silica fume and PFA concrete. Cement& Concrete Composites, 21, 293-300, 1999
Malhortra,V.M,Neville,A.Symposium on concrete technology in the use of demolition waste in concrete, bywain Wright, Pj26,1995,pp.179-197.
Frondistion, K.Yannas,S., Economics of concrete Recycling in the united sates, Advanced Research institute problems in the Recycling concrete, France,Nov.25-28,1980,pp.163-186.
Hansen, T.C, (Editor), Recycling of Demolition and Masonry, RLLEM (The international union of testing and Research laboratories for materials and structures), Reports, 1992.
S.C.Kou, C.S.Poon. Properties of self-compacting concrete prepared with coarse and fine recycled concrete aggregates, Department of Civil and Structural Engineering the Hang Kong Polytechnic University, Hong Kong, China, Cement Concrete Composites Vol.31, pp.622-627, 2009.
Sami W. Tabsh, AkmalS.Abdelfatah, Influence of recycled concrete aggregates on strength properties of concrete, Construction and Building Materials Vol.23, pp.1163-1167, 2009
Zoran Jure Grdic, Gordana A. Toplicic-Curcic, Iva M.Despotovic, NenadS.Ristic. Properties of self-compacting concrete prepared with coarse recycled concrete aggregate, Faculty of civil Engineering and Architecture of Nis, Serbia, Construction and Building Materials Vol.24, 2010, pp.1129-1133, 2010.
Tine Aarre, DanskbetonTeknikAis, Denmark, Peter Domone, University College London UK, Reference Concrete for Evaluation of test Method for SCC. Pp.495-502, August, 2003.
Esmaeilnia Omran, Mohammad, Faridi, Mojtaba. Optimization of self-compacting concrete made from recycled concrete aggregate, the seventh national congress of civil engineering, Shahid Nikbakht Faculty of Engineering, Zahedan 7 and 8 May 2013
EFNARK, “Specification and Guidelines for Self Compacting Concrete”, European Federation, 2002.
Konig, G. Holschemacher, K. Dehn, F, Weibe, D, Self compacting concrete time development of material properties and bond behavior, second RILEM sym on scc, japan596-605,2001.
Klug, Y, Holschemacher, K, Comparison of the hardened properties of self compacting concrete and normal vibrated concrete. third RILEM Intsymp on SCC, Icland 15-22, 2003.
Felekoglu .B, Turkel .S, Baradan .B, Effect of water/cement ratio on the fresh and hardened properties of self compacting concrete, Building and Environment, 2006.
Sonebi, M.Bartos, PJM.Zhu, W.Gibbs, J.Tamimi, A, Properties of hardened concrete, Task4, Brite Euram, 2000.
Sukumar, B.Nagumani, K,Srinivasa, R, Evaluation of strength at early ages of self compacting concrete with high volume fly ash , Con&Buld Mat,2007.
Bosiljkov .V.B, SCC mixes with poorly graded aggregate and high volume of limestone filler, cem&con res, 1279-1286, 2003.
Brouwers, H.Radix, H, self compacting concrete, theoretical and experimental study, Cem&Con, 2116, 2005.
Robatsarpoushi, Reza. Investigating the determination of the type of filler material suitable for making self-compacting concrete, Master’s Thesis, Guilan, 2006
Ebrahimi, Hamidreza. Evaluation of shear behavior of reinforced concrete beams made with high strength SCC. Comparing it with conventional concrete, Master’s Thesis, Mazandaran University, 2005
Fakhri, Yashar. Investigating the physical and mechanical properties of self-compacting concrete, Master’s Thesis, Mazandaran University, 2006
Mohammadpour Nikbin, Iman. Investigating the mechanical properties of self-compacting concrete containing ordinary and light aggregates, Master’s Thesis, Guilan University, 2007
CEB-FIP, Model Code 1990, London, 1993.
Domone .P.L, A review of the hardened mechanical properties of self compacting concrete. Cemand con composites vol.29 Issuel 1-12, 2007
Barzegar, Maziar. Investigating the effects of shrinkage and creep in self-compacting concrete, Master’s Thesis, Mazandaran University, 2007
Turcry, P.Loukili,A.Haidar, K.Mechanical properties, plastic shrinkage and free deformation of self compacting concrete, First American Conference on the design and use of scc,335-40,2002.
Fava, C.Bergol, L.Fornasia, G, Fracture behavior of self compacting concrete, third RILEM Scc, 628, 2003.
Issa, M. Alhassan, M. Labratoary performance evaluation of self compacting concrete, SCC,857,2005
Vieira, M. Bettencourt, A, Deformability of hardened SCC, thid RILEMIntSym on SCC, Iceland,637-44, 2003.
Brunner, M.Durability of SCC with high water content, Proceeding of SCC 2005,333-40,2005.
Almeida Filho, F.Narden, s.Cresce Debs, A, Evaluation of the bound strength of self compacting concrete in pull out tests, Proceeding of Scc 2005,953-8,2005.
Khayat, K.Terembley, S. Structural response of self consolidating columns, First IntSym on SCC,355,1999.
Pons, G.Proust, E.Assie,S, Creep and shrinkage behavior of self compacting concrete a different behavior compared with vibrated concrete, Third RILEM IntSym on SCC, Iceland,645-54,and 2003.
Khayat, K.Petroy, N.Attiogbe, E.See, H. Uniformity of bond strength of prestressed strands in conventional flowable and self consolidating concrete mixtures, Third RILEM IntSym on Scc,Iceland,703-12,2003.
Ahmadirad, Mirahmad. Investigating and comparing the corrosion potential of reinforcements buried in SCC self-compacting concrete containing rock flour, rice husk ash and silica soot, Master’s Thesis, Guilan University, 2006
Afshinnia, Kaveh. Mixing self-compacting concrete by use of rice husk ash, investigating their compressive, tensile strength, expansion and contraction and compare it with conventional concrete, Master’s Thesis, Guilan University, 2006
Nia, S. B., & Adlparvar, M. R. (2022). The effects of waste polyethylene terephthalate (PET) particles on the properties of fresh and hardened self-consolidating concrete. IJCEC,1(1), 06-12.
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Copyright (c) 2023 Saeed Bozorgmehr Nia, Masoud Taheri, Reza Jamalpour (Author)
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