Open Access

Concrete Made With Waste Materials - A Review

Vikas Srivastava, vikas_mes@rediffmail.com
Department of Civil Engineering, SHIATS, Allahabad, India.
Rakesh Kumar, Department of Civil Engineering, MNNIT, Allahabad, Inda. P.K. Mehta Department of Environmental Science, SHIATS, Allahabad, India.


J. Environ. Nanotechnol., Volume 2, No 2 (2013) pp. 102-106

https://doi.org/10.13074/jent.2013.06.132022

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Abstract

The rapid population increase, industrial activities and living trends are generating variety of waste materials. These on the one hand require costly disposal practices and invaluable land while on the other hand pollute the different natural resources and environment. Further, a lot of natural resources are being depleted at a much faster rate now than ever before. The use of waste or waste by product for substitutions of cement and aggregate has greatly contributed to sustainable development practices. The replacement of cement and aggregates by waste materials either in part or in whole improves the mechanical properties too viz., compressive strength, flexural strength, tensile strength, bond strength, modulus of elasticity and reduces permeability, chloride penetration and chloride diffusion of concrete. The workability of waste concrete is generally improved. In this paper, a review of the effects of waste inclusion on the properties of fresh and hardened concrete is presented.

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Reference


Achtemichuk, Sasha, Justin Hubbard, Richard Sluce and Medhat H. Shehata, “The utilization of recycled concrete aggregate to produce controlled low-strength materials without using Portland cement” Cement and Concrete Composites Volume 31, Issues 8, September 2009, Pages 5640- 569.

Adesanya, D.A., A.A. Raheem, “ A study of the workability and compressive strength characteristics of corn cob ash blended cement concrete” Construction and Building Materials, 23 ( 2009), pp 311-317.http://dx.doi.org/10.1016/j.conbuildmat.2007.12.004

Ayano, T., O. Kuramoto and K. Sakata, “Concrete with copper slag as fine aggregate” J. Soc. Material Science Japan 49 (10) (2000), pp. 1097–1102.http://dx.doi.org/10.2472/jsms.49.1097

Bouzoubâa, N, Fournier B. Current situation of SCMs in Canada. Materials Technology Laboratory Report MTL 2003-4(TR), MTL/ CANMET; 2003. 28 p.

Challe, Y. W., P. Ausapanit and C. Jaturapitakkal, “ Utilization of fly ash concrete in marine environment for long term design life analysis”, Material & Design, 31, 3, 1242-1249 (2010).http://dx.doi.org/10.1016/j.matdes.2009.09.024

Choi, Yun-Wang, Dae-Joong Moon, Jee-Seung Chung, Sun-Kyu Cho, “Effects of waste PET bottles aggregate on the properties of concrete” Cement and Concrete Research Volume 35, Issues 4, April 2005, Pages 776-781.

Dhir, R.K., T. Leelawat and M.C. Limbachiya, Use of recycled concrete aggregate in high-strength concrete, Mater Struct 33 (2000), pp. 574–580.http://dx.doi.org/10.1007/BF02480538

Environment Canada, Atlantic Region. ‘Reusing construction and demolition waste” www .ns.ec.gc.ca/ community/storysolterre .html>; 2003.

Environmental working party of the concrete society’s materials group, Environmental topics avoidance of waste: beneficial use of industrial by-products as constituents of concrete, Concrete (London) 37 (5) (2003), pp. 43–45.

Fonteboa, B. González, F. Martínez-Abella, “Concretes with aggregates from demolition waste and silica fume: Materials and mechanical properties” Building Environment, 43 (2008), pp. 429–437.http://dx.doi.org/10.1016/j.buildenv.2007.01.008

Forteza, R., M. Far, C. SeguI and V. Cerda, Characterization of bottom ash in municipal solid waste incinerators for its use in road base, Waste Management 24 (2004) (9), pp. 899– 909.

Hill, A.R., A.R. Dawson and M. Mundy, Utilization of aggregate materials in road construction and bulk fill, Resources, Conservation and Recycling 32 (2001) (3–4), pp. 305–320.

Jabri, Khalifa S. Al, Makoto Hisada, Salem K. Al- Oraimi and Abdullah H. Al-Saidy, “Copper slag as sand replacement for high performance concrete” Cement and Concrete Composites Volume 31, Issues 7 Aug 2009, pp. 483-488.

Li, B., W. Liang and Z. He, Study on high-strength composite Portland cement with a larger amount of industrial wastes, Cement and Concrete Research 32 (8) (2002), pp. 1341– 1344.http://dx.doi.org/10.1016/S0008-8846(02)00804-9

Meddah, Mohammed Seddik and Mohamed Bencheikh, “Properties of concrete reinforced with different kinds of industrial waste fibre materials” Construction and Building Materials Volume 23, Issue 10, October 2009, pp 3196- 3205.http://dx.doi.org/10.1016/j.conbuildmat.2009.06.017

Naik, T.R., R.N. Kraus, Y.M. Chun, B.W. Ramme and S.S. Singh, Properties of field manufactured cast-concrete products utilizing recycled, Mater J Mater Civil Eng 15 (4) (2003), pp. 400–407.http://dx.doi.org/10.1061/(ASCE)0899-1561(2003)15:4(400)

Naik T.R., Y.M. Chun, R.N. Kraus, B.W. Ramme and R. Siddique, Precast concrete products using industrial by-products, ACI Mater J 101 (3) (2004), pp. 199–206.

Nehdi, Moncef, Jon Sumner, “Recycling waste latex paint in concrete” Cement and Concrete Research Volume 33, Issue 6, June 2003, Pages 857-863.http://dx.doi.org/10.1016/S0008-8846(02)01084-0

Oner, A., S. Akyyz and R. Yildiz, “ “ An experimental study on strength development of concrete containing fly ash and optimum usage of fly
ash in concrete” Cement & Concrete Research 35 (2005), pp. 1165–1171.

Pacewska, B., M. Bukowska, I. Wili ska, M. Swat, “ Modification of the properties of concrete by a new pozzolan—a waste catalyst from the catalytic process in a fluidized bed” Cement and Concrete Research 39 (2009), pp 145-152.

Pecqueur, G., C. Crignon and B. Quenee, Behaviour of cement-treated MSWI bottom ash, Waste Management 21 (2001) (3), pp. 229–233.

Rahal, K., Mechanical properties of concrete with recycled coarse aggregate, Building Environment 42 (2005), pp. 407–415.http://dx.doi.org/10.1016/j.buildenv.2005.07.033

Reichelt, J. and G. Pfrang-Stotz, Technical properties and environmental compatibility of MSWI bottom ashes and other industrial by-products
used as recycled materials in road construction, IT3 Conference ‘Incineration and Thermal Treatment Technologies’, New Orleans, Louisiana (2002).

Saraswathy, V., and Ha-Won Song “Corrosion performance of rice husk ash blended concrete” Construction and Building Materials Volume 21, Issue 8, August 2007, pp 1779-1784.http://dx.doi.org/10.1016/j.conbuildmat.2006.05.037

Senthamarai, RM., P. Devadas Manoharan, “Concrete with ceramic waste aggregate” Cement and Concrete Composites Volume 27, Issues 9-10, pp. 863-970, 2005.

Suzuki, Masahiro, Mohammed Seddik Meddah, Ryoichi Sato, “Use of porous ceramic waste aggregates for internal curing of highperformance concrete” Cement and Concrete Research Volume 39, Issues 5, May 2009, Pages 373-381.

Topçu, Ilker Bekir, Selim Sengel, “Properties of concretes produced with waste concrete aggregate” Cement and Concrete Research Volume 34, Issues 8, August 2004, Pages 1307- 1312.

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