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Paper Title : A REVIEW OF THE APPLICATIONS OF RUBBER WASTE IN CONSTRUCTION FIELD
ISSN : 2395-1303
Year of Publication : 2022
MLA Style: -V K NITHIN A REVIEW OF THE APPLICATIONS OF RUBBER WASTE IN CONSTRUCTION FIELD , Volume 8 - Issue 5 September - October 2022 International Journal of Engineering and Techniques (IJET) ,ISSN:2395-1303 , www.ijetjournal.org
APA Style: - V K NITHIN A REVIEW OF THE APPLICATIONS OF RUBBER WASTE IN CONSTRUCTION FIELD , Volume 8 - Issue 5 September - October 2022 International Journal of Engineering and Techniques (IJET) ,ISSN:2395-1303 , www.ijetjournal.org
Population growth, rapid urbanization and industrialization are accelerating the generation of municipal solid waste. Solid waste disposal is a fast-growing problem today, and there is an urgent need to transform existing disposal processes in a sustainable way. The combination of population explosion and improvement in people's lifestyles has led to an increase in solid waste generation in both urban and rural areas of the country. Solid waste from rural areas is inherently highly biodegradable, while solid waste from urban areas contains many non-biodegradable components such as plastics and packaging. That aversion to disposition is common in both fields. In India, as in all other sectors, there is a clear distinction between urban and rural solid waste. Solid waste from rural areas is likely to be biodegradable, while solid waste from urban areas contains non-biodegradable components such as plastics and packaging. Non-biodegradable solid waste fraction in an integrated closed-loop refinery platform for the production of value-added products. The research focuses on recycling materials such as rock waste (SW), fly ash (FA), palm oil fuel ash (POFA), rubber waste (RW), wood flour (WP), plastic waste (PW) and rice husks. Considered for use. (RH), and Municipal Waste Ash (MSWA) for partial replacement of concrete. Recycling non-biodegradable waste and using it in construction for a variety of purposes not only reduces landfill problems, but also contributes to energy savings and global climate change mitigation. To reduce this non-biodegradable waste, we recycle it and use it sustainably in our industry.
1.Paulo Roberto Lopes Lima, Monica Batista Leite, Ediela Quinteiro RiberioSantiago,“Recycled lightweight concrete made from footwear industry waste and CDW ” Waste Management 30(2010) 1107-1113. 2. G. Velvizhi, S.Shanthakumar, Bhaskar Das, A. Pugazhendhi, T.Shanmuga Priya, B.Ashok K.Nanthagopal, R.Vignesh, C.Karthick,“Biodegradable and non- biodegradable fraction of municipal solid waste for multifaceted applications through a closed loop integrated refinery platform : Paving a path towards circular economy” Science of the Total Environment 731 (2020) 138-49. 3. Arul Arulrajah, Alireza Mohammadinia, Suksum Horpibuisuk, “The derived aggregates as a supplementary material with recycled demolition concrete for pavement application ”Journal of cleaner production 230 (2019) 129-136. 4. Toutanji, H.A., 1996. The use of rubber tire particles in concrete to replace mineral aggregates. Cement and Concrete Composites, 18(2), pp.135-139. 5. RedaTaha, M.M. El-Dieb, A.S. Abd El-Wahab, M.A. and Abdel-Hameed, M.E., 2008. Mechanical, fracture, and microstructural investigations of rubber concrete. Journal of materials in civil engineering, 20(10), pp.640-649. 6. Wang, C., Zhang, Y. and Ma A., 2010. Investigation into the fatigue damage process of rubberized concrete and plain concrete by AE analysis. Journal of Materials in Civil Engineering, 23(7), pp.953-960. 7. Naito, C., States, J., Jackson, C. and Bewick, B., 2013. Crumb Rubber Concrete Performance under Near-Field Blast and Ballistic Demands. Journal of Materials in Civil Engineering, 26(9), pp. 401-462.
— Biodegredable, Municipal solid waste, Palm oil fuel ash, Rubber waste.