Study on Plastic Waste for Replacement of Coarse Aggregate With Soft and Hard Plastic in Concrete
DOI:
https://doi.org/10.17010/ijce/2020/v3i1/152722Keywords:
Coarse Aggregate
, Hard Plastic, Soft Plastic.Manuscript Received
, April 1, 2020, Revised, May 05, Accepted, May 8, 2020.Abstract
There is an enormous issue of plastic in environment. Disposal of waste plastic from households has become a big problem for agencies in cities. Plastic waste management can be an international problem as plastic is a non-perishable substance. Plastic waste includes single use plastic such as plastic bottles, single use straw, food containers, and alternative plastic materials. Plastic cannot be burnt by burning, as a result it causes major pollution and releases harmful gases like dioxide, dioxins ,furans, and metals. These emissions cause metabolic process issues. Dumping huge amount of plastic onto land reduces the fertility of soil and causes soil pollution. Plastic waste primarily consists of Low Density Polyethylene (LDPE). Plastic waste is placed within the ash can and plastic bear evacuation blocksitor the area units are burnt on the margin, which produces pollution. Industrial waste from polypropene (PP) and polythene terephthalate (PET) were studied at various replacements in the vicinity of the standard aggregates of concrete. Polypropene is a powerful, rigid, and crystalline thermoplastic which is known as exhausting plastic. Polythene terephthalate is a soft ,flexible plastic that is usually used for plastic bottles. In our analysis, the only aim is to study the suitability of plastic as a replacement of coarse mixture in concrete with soft and exhausting plastic each, and to get the replacement with maximum compressive strength in concrete. Suitable mixtures were used for the preparations of the concrete.Downloads
Downloads
Published
How to Cite
Issue
Section
References
Balasubramanian, B., Gopala Krishna, GVT, and Saraswathy, V.(2016), “Investigation on partial replacement of coarse aggregate using e-waste in concrete,†Int. J. of Earth Sciences and Eng., vol. 9, no. 3, pp. 285-288, 2016.
D. Y. Osei, “Experimental investigation on recycled plastics as aggregate in concrete,†Int. J. of Structure and Civil Eng. Res., vol. 3, 2014.
K.Tajne and P. Bhandari, “Waste plastic used as a coarse aggregate in concrete,†Int. J. for Res. in Appl. and Natural Sci., vol. 2, no. 1, 38-44,2016. Retrieved from http://gnpublication.org/index.php/ans/article/view/116
H. Shukla, H. Rajput, A. Jain, D. Gurjar, and G. Awasthi, “Study of compressive strength of concrete by using e-waste,†Int. J. of Sci. Technol. & Eng., vol. 2, no. 10, 2016. Retrieved from http://www.ijste.org/articles/IJSTEV2I10206.pdf
K. L. A.V. Harnadh, A. M. N. Kashyap, C. L. K. M. Gupta, and T. C. Sekhar, “Experimental investigation on coarse aggregates by using waste plastics & polymers,†Int. J. of Innovative Res. in Eng. & Manage., vol. 2, no. 3, pp. 19-23, 2015. Retrieved from https://www.ijirem.org/DOC/4cc9f0ea3-9806-47a6-b466-505d698c8d1f.pdf
R. S. Lakshmi and S. Nagan, “Studies on concrete containing e-plastic waste,†Int. J. of Environmental Sciences, vol.1, no. 3, pp. 270-281, 2010.
M. Muzafar Ahmed and S. S.Raju, “Properties of concrete by the addition of plastic solid waste,†Int. J. of Sci. and Res., pp. 2319-7064, 2013
