Use of Waste & Recycled Material in Construction & Its Applications

Authors

  • Tarun Kumar

Keywords:

Recycled material, Solid Waste, Environment, Construction Material

Abstract

The primary objective of this research review is to find the possible utilization of different reused and  waste material and for final supply of those materials for Construction. As we are producing waste in  tones day by days so we need to utilize that waste in some different and efficient manner so that we can  reduce  that  threat  to  environment.We  are  increasing  loads  on  nation's  landfills  as  well.  For  economicviability andto find best solution for environment we can utilize the waste products and can  reuse them after suitable modification in their properties we can use them as some foreign to enhance  the mechanical, chemical and other properties of the building in addition to construction material. By  using these materials in construction we can reduce load on Nations landfills as well.Reuse of waste  materials helps to preserve natural resources, save energy, helps in to decrease solid waste, reduction in  pollution levels and other factors which effects our environment directly. Construction companies can  being aware and they can take the advantage by using these waste and recycled material. This review  paper discusses the implications  caused due to various waste products and features their  reusing  possibilities and  conceivable use for producing good  construction material. This paper deals with  proper use of waste and recycled material in construction and application in this field.

Downloads

Download data is not yet available.

References

Afroz,S. and Prasad,K.S.B. 2012. Utilization of waste plastic as a strength modifier in surface course of flexible and rigid pavements, International Journal of Engineering Research and Applications (IJERA), 2(4), 1185-1191

Algin HM, Turgut P (2008). Cotton and Limestone Powder Wastes as Brick Material. Constr. Build. Mater., 22: 1074- 1080.

Ba r a i, S .V. a n d Ra k s hv i r. 2 0 0 5 . Experimental studies on recycled aggregates based concrete, Proc. In International Conference on Structural and Road Transportaion Engineering, IIT,Kharaghpur, India, 225-233

Bhaskar Rao, M.V.2003. Cement Concrete Roads – An overview, Proc. National Conf. Modern Cement Concrete and Bituminous Roads, GITAM College of Engineering, Vishakhapatnam (India), Dec.18-20, 299- 313

Bignozzi MC, Sandrolini F (2006). Tyre Rubber Waste Recycling in Self Compacting Concrete. Cement and Concrete Res., 36: 735.

Binci H, Aksogan O, Shah T (2005). Investigation of Fibre Reinforced Mud Brick as Building Materials. Constr. Build Mater. 19: 313-318.

Bindra,S.,Sana,K.B and Tadulkar,S.2003. Investigation of the quality of concrete made using recycledcement mortar as fine aggregate for Road Pavements, Proc. National Conf. Modern Cement Concrete and Bituminous Roads, GITAM College of Engineering, Vishakhapatnam (India), Dec. 18-20, 266-274

CalRecycle, 2006. Asphalt roofing shingles recycling: Introduction. The California Department of Resources Recycling and Recovery.

Central Pollution Control Board (CPCB) (2000). Report on Management of Municipal Solid Wastes, Delhi, India.

Chidiac SE, Federico LM (2007). Effects of Waste Glass Additions on the Properties and Durability of Fired Clay Brick. Canadian J. Civil Eng., 34: 1458-1466.

Demir I (2009). Reuse of Waste Glass in Building Brick Production. Waste Manage. Res., 27: 572-577.

Demir I, Baspinar MS, Orhan M (2005). Utilization of Kraft Pulp Production Residues in Clay Brick Production. Build. Environ., 40: 1533-1537.

Deshpande AP, Rao MB, Rao CL (2000). Extraction of Bamboo Fibers and Their Use as Reinforcement in Polymeric Composites. J. Appl.Polym. Sci., 76: 83-92.

Diamond S (1986). Particle Morphologies in Fly Ash. Cement and Concrete Res., 16: 569-579.

Emery, J.J., 1981. Potential uses for kiln dusts. Proceedings of the Symposium on Mineral Fillers, Ontario Research Foundation, (MFORF' 81), Toronto.

FHWA, 2004. Transportation Applications of Recycled Concrete Aggregate. 1st Edn., Federal Highway Administration, Washington, DC., pp: 38.

Fini, E. and T. Abu-Lebdeh, 2011. Bonding property of bituminous crack sealants in the presence of water. Am. J. Eng. Applied Sci., 4: 124-129. DOI: 10.3844/ajeassp. 2011.124.129

Hamoush, S., T. Abu-Lebdeh, M. Picornell and S. Amer, 2011. Development of sustainable engineered stone cladding for toughness, durability and energy conservation. Constr. Build. Mater., 25: 4006-4016. DOI: 10.1016/j.conbuildmat. 2011.04.035

Hassim, S.J.M.S.A., 2009. The contractor perception towers industrialized building system risk in construction projects in Malaysia. Am. J. Applied Sci., 6: 937-942. DOI: 10.3844/ajassp.2009.937.942

Pandey,B.B. 2012. Low Cost Concrete Roads for Villages, Workshop on Non conventional materials/Technologies, 18th. Februrary, 2012, Central Road Research Institute, New Delhi, 39-41

Ramesh, K.V., Murthy, S.R.C. and Narsimha Rao, D.L. 2003. Concrete roads with high volume fly ash, Proc. National Conf. Modern Cement Concrete and Bituminous Roads, GITAM College of Engineering, Vishakhapatnam (India), Dec. 18-20, 326- 331

Rao A, Jha KN, Misra S (2007). Use of Aggregate from Recycled Construction and Demolition Waste in Concrete. Resources, Conservation and Recycling. 50: 71-78.

Report .2006. Rural Roads, Ministry of Rural Development, Govt. of India (Planning Commission, Nov, 2006

Rosa, C.C.L and Maria, R.R.S. 2009. Addition of rubber to concrete to maintain flexural strength and compressive s t rength, Journal of Urban and Environmental Engineering,3 (2), 52-57

Sagar, A.K. 2007. Use of locally available materials: Fly ash for road construction works, India Infrastructure Report, New Delhi

Segre N, Joekes I (2000). Use of Tyre Rubber Particles as Addition to Cement Paste. Cement and Concrete Research. 30: 1421-1425.

Shao Y, Lefort T, Moras S, Rodrigues D (2000). Studies on Concrete Containing Ground Waste Glass. Cement and Concrete Research. 30: 91-100.

Suryawanshi, N. and Nemade, P.D. 2012. Use of Eco-friendly Material like Fly Ash in Rigid Pavement construction & it's cost –benefit analysis, International Journal of Emerging Technology and Advanced Engineering, Vol.2, Issue 12, 795-800

Topcu IB, Canbaz M (2004). Properties of Concrete Containing Waste Glass. Cement and Concrete Research, 34: 267-274.

Vittal, U.K.G. 2012. Use of Marginal Materials & Fly Ash in Road Works, Mini s t ry of Rural Development, Workshop on Non-conventional materials and Technologies, Central Road Research Institute, New Delhi, 18th.Feb,2012 , 93- 98

Zheng,L., Huo,X and Yuan, Y. 2008. Strength, Modulus of Elasticity, and Brittleness Index of Rubberized Concrete, J o u r n a l o f m a t e r i a l s i n C i v il Engineering(ASCE), Vol.20,issue-11,692- 699.

Downloads

Published

2020-12-06

Issue

Vol. 14 No. 2 (2020): Gyan Management Journal (Jul-Dec) 2020

Section

Articles

License

Copyright (c) 2022 Tarun Kumar

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

How to Cite

Kumar, T. (2020). Use of Waste & Recycled Material in Construction & Its Applications. Gyan Management Journal, 14(2), 44–50. Retrieved from https://acspublisher.com/journals/index.php/gmj/article/view/189