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International Journal of Sustainable Engineering Volume 15, 2022 - Issue 1
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Research Article

Effects of waste plastics as partial fine-aggregate replacement for reinforced low-carbon concrete pavements

Kiran Tota-Maharaja Department of Civil Engineering, School of Infrastructure & Sustainable Engineering School, College of Engineering and Physical Sciences, Aston University Birmingham, Birmingham, England, UKCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-2513-5185View further author information
ORCID Icon,
Blessing Oluwaseun Adelekeb School of Engineering, Faculty of Computing, Engineering and Science, University of South Wales, Pontypridd, Wales, UKORCID Iconhttps://orcid.org/0000-0002-6702-4811View further author information
ORCID Icon &
Ghassan Nounuc Department of Engineering Design and Mathematics, Civil and Environmental Engineering Cluster, University of the West of England Bristol (UWE Bristol) Frenchay Campus, Bristol, England, UKView further author information
Pages 192-207 | Received 19 Dec 2021, Accepted 25 Jul 2022, Published online: 23 Aug 2022

References

  • Al-Jahdali, F. A., F. F. Wafa, and S. A. Shihata. 1994. “Development Length for Straight Deformed Bars in High-Strength Concrete.” ACI Symposium Publication 149 (1): 507–522.
  • Al-Sabah, S., S. Sourav, and C. McNally. 2021. “The post-installed Screw pull-out Test: Development of a Method for Assessing in-situ Concrete Compressive Strength.” Journal of Building Engineering 33: 101658. doi:10.1016/j.jobe.2020.101658.
  • Ali, H., and I. Wahab. 2017. “Microbial Degradation of Plastic: A Short Study.” RADS Journal of Biological Research & Applied Science 8 (1): 32–36.
  • Alqahtani, F. K., G. Ghataora, M. I. Khan, and S. Dirar. 2017. “Novel Lightweight Concrete Containing Manufactured Plastic Aggregate.” Construction and Building Materials 148 (1): 386–397. doi:10.1016/j.conbuildmat.2017.05.011.
  • Andrady, A. L., and M. A. Neal. 2009. “Applications and Societal Benefits of Plastics.” Philosophical Transactions of the Royal Society B: Biological Sciences 364 (1526): 1977–1984. ASTM C234-91a. Standard Test Method for Comparing Concretes on the Basis of the Bond Developed with Reinforcing Steel 10.1098/rstb.2008.0304.
  • Babafemi, A. J., B. Šavija, S. C. Paul, and V. Anggraini. 2018. “Engineering Properties of Concrete with Waste Recycled Plastic: A Review.” Sustainability (Switzerland) 10 (11): 3875–3900. doi:10.3390/su10113875.
  • Bošnjak, J., A. Sharma, and S. Bessert, 2017. “Bond Performance of Reinforcement in Concrete after Exposure to Elevated Temperatures.” In 3rd International Symposium on Connections between Steel and Concrete, Stuttgart, Germany.
  • Braungart, M., and W. McDonough. 2002. Cradle to Cradle: Remaking the Way We Make Things. New York: North Point Press.
  • BRMCA (British Ready-Mixed Concrete Association) (2011). “Get the Right Concrete on Site.” See https://www.brmca.org.uk/documents/Get_the_Right_Quality_on_Site_23_Jun_11.pdf (accessed 01 April 2020).
  • BSI (2002a). “BS EN 1008:2002. Mixing Water for Concrete. Specification for Sampling, Testing and Assessing the Suitability of Water, Including Water Recovered from Processes in the Concrete Industry, as Mixing Water for Concrete.” BSI, London, UK.
  • BSI. 2002b. BS EN 12620:2002. Aggregates for Concrete. London, UK: BSI.
  • BSI. 2011. BS EN 197-1:2011. Cement. Part 1: Cement. Composition, Specifications and Conformity Criteria for Common Cements. London, UK: BSI.
  • BSI. 2012. BS EN 12390-1:2012. Testing Hardened Concrete. Part 1: Shape, Dimensions and Other Requirements for Specimens and Moulds. London, UK: BSI.
  • BSI. 2013. BS EN 206:2013. Concrete - Specification, Performance, Production and Conformity. London, UK: BSI.
  • BSI. 2019a. BS EN 12350-2:2019. Testing Fresh Concrete. London, UK: Slump-test. BSI.
  • BSI. 2019b. BS EN 12390-2:2019. Testing Hardened Concrete. Part 2: Making and Curing Specimens for Strength Tests. London, UK: BSI.
  • BSI. 2019c. BS EN 12390-3:2019. Testing Hardened Concrete. Part 3: Compressive Strength of Test Specimens. London, UK: BSI.
  • CEB-FIP (Comité Euro-International du Béton and Fédération International de la Précontrainte). 2012. Model Code 2010 – Final Draft. Vol. 1. London, UK: Thomas Telford.
  • CEB-FIP Report. 2000. “Bond of Reinforcement in Concrete: State of the Art.” FIB Bulletin 10: 434. doi:10.1680/macr.11.00091.
  • da Costa, J. P., P. S. M. Santos, A. C. Duarte, and T. Rocha-Santos. 2016. “(Nano)plastics in the Environment – Sources, Fates and Effects.” Science of the Total Environment 566-567 (1): 15–26. doi:10.1016/j.scitotenv.2016.05.041.
  • Darwin, D., S. L. McCabe, E. K. Idun, and S. P. Schoenekase. 1992. “Development Length Criteria: Bars Not Confined by Transverse Reinforcement.” ACI Structural Journal 89 (6): 709–720.
  • Das, S., M. T. Alam, and I. Chowdhury (2019). “Utilization of Plastic Waste in Concrete as a Partial Replacement of Fine Aggregate.” In Proceedings of 3rd International Conference on Advances in Civil Engineering (I. Islam, H. Ali, Rahman, and Haque (eds)). CUET (Chittagong University of Engineering and Technology), Chittagong, Bangladesh, pp. 585–590.
  • Designer Data (2015). “Thermo Plastics”. See https://designerdata.nl/materials/plastics/thermo-plastics accessed 17 April 2020.
  • Ferrándiz-Mas, V., and E. García-Alcocel. 2013. “Durability of Expanded Polystyrene Mortars.” Construction and Building Materials 46: 175–182. doi:10.1016/j.conbuildmat.2013.04.029.
  • Gagg, C. R. 2014. “Cement and Concrete as an Engineering Material: An Historic Appraisal and Case Study Analysis.” Engineering Failure Analysis 40: 114–140. doi:10.1016/j.engfailanal.2014.02.004.
  • Geyer, R., J. R. Jambeck, and K. L. Law. 2017. “Production, Use, and Fate of All Plastics Ever Made.” Science Advances 3 (7): e1700782. doi:10.1126/sciadv.1700782.
  • Goli, V. S. N. S., A. Mohammad, and D. N. Singh. 2020. “Application of Municipal Plastic Waste as a Manmade neo-construction Material: Issues & Wayforward.” Resources, Conservation and Recycling 161: 105008. doi:10.1016/j.resconrec.2020.105008.
  • Guendouz, M., F. Debieb, O. Boukendakdji, E. H. Kadri, M. Bentchikou, and H. Soualhi. 2016. “Use of Plastic Waste in Sand Concrete.” JMES (Journal of Materials and Environmental Science) 7 (2): 382–389.
  • Gurmel, G., K. M. Iqbal, D. Samir, K. Azzedine, and A. O. Mansour. 2015, November. Lightweight concrete containing recycled plastic aggregates. In 2015 International Conference on Electromechanical Control Technology and Transportation (pp. 527-533). Atlantis Press, Paris, France, pp. 527-533, doi: 10.2991/icectt-15.2015.101.
  • Ismail, Z., and E. AL-Hashmi. 2008. “Use of Waste Plastic in Concrete Mixture as Aggregate Replacement.” Waste Management 28 (11): 2041–2047. doi:10.1016/j.wasman.2007.08.023.
  • Jaccodine, R. J. 1963. “Surface Energy of Germanium and Silicon.” Journal of the Electrochemical Society 110 (6): 524–527. doi:10.1149/1.2425806.
  • Jaivignesh, B., and A. Sofi (2017). “Study on Mechanical Properties of Concrete Using Plastic Waste as an Aggregate.” In International Conference on Civil Engineering and Infrastructural Issues in Emerging Economies (ICCIEE 2017). IOP Conference Series: Earth and Environmental Science, Thanjavur, India, vol. 80, pp. 1–7, 10.1088/1755-1315/80/1/012016.
  • Jialanella, G. L. 2010. “Advances in Bonding Plastics.” In Advances in Structural Adhesive Bonding, edited by David A. Dillard, 237–264. Cambridge, UK: Woodhead Publishing.
  • Kaur, G., and S. Pavia. 2020. “Physical Properties and Microstructure of Plastic Aggregate Mortars Made with acrylonitrile-butadiene-styrene (ABS), Polycarbonate (PC), Polyoxymethylene (POM) and ABS/PC Blend Waste.” Journal of Building Engineering 31: 101341. doi:10.1016/j.jobe.2020.101341.
  • Kou, S. C., G. Lee, C. S. Poon, and W. L. Lai. 2009. “Properties of Lightweight Aggregate Concrete Prepared with PVC Granules Derived from Scraped PVC Pipes.” Waste Management 29 (2): 621–628. doi:10.1016/j.wasman.2008.06.014.
  • Kumar, P., and G. Kumar. 2016. “Effect of Recycled Plastic Aggregates on Concrete.” International Journal of Science and Research (IJSR) 5 (6): 912–915. doi:10.21275/v5i6.NOV164227.
  • Li, X., T. Ling, and K. H. Mo. 2020. “Functions and Impacts of plastic/rubber Wastes as eco-friendly Aggregate in Concrete – A Review.” Construction and Building Materials 240: 117869. doi:10.1016/j.conbuildmat.2019.117869.
  • Mendis, P., and C. French. 2000. “Bond Strength of Reinforcement in high-strength Concrete FAILURE, Advanced.” Structural. Engineering 3 (3): 245–253.
  • Mineral Products Association (MPA) (2016). “Long-term Aggregates Demand and Supply, 2016-30.” See https://mineralproducts.org/documents/MPA_Long_term_aggregates_demand_supply_scenariors_2016-30.pdf (accessed 17 April 2020).
  • Neville, A. M. 1995. Properties of Concrete. 4th Edn ed. London, UK: Longman Group Limited.
  • Orangun, C. O., J. O. Jirsa, and J. E. Breen. 1977. “Revaluation of Test Data on Development Length and Splices.” ACI Journal Proceedings 74 (3): 114–122.
  • Osifala, K. B., M. A. Salau, and A. A. Adeniyi (2015). “Effect of Waste Plastic Shreds on Bond Resistance between Concrete and Steel Reinforcement.” In 2nd International Conference on Innovative Materials, Structures and Technologies. IOP Conference Series: Materials Science and Engineering, Riga, Latvia, vol. 96, pp. 1–11, 10.1088/1757-899X/96/1/012051.
  • Rahmani, E., M. Dehestani, M. H. A. Beygi, H. Allahyari, and I. M. Nikbin. 2013. “On the Mechanical Properties of Concrete Containing Waste PET Particles.” Construction and Building Materials 47: 1302–1308. doi:10.1016/j.conbuildmat.2013.06.041.
  • Rashad, A. M. 2016. “A Comprehensive Overview about Recycling Rubber as Fine Aggregate Replacement in Traditional Cementitious Materials.” International Journal of Sustainable Built Environment 5 (1): 46–82. doi:10.1016/j.ijsbe.2015.11.003.
  • Rilem, 1973. “Rilem TC-9 RC 6: Bond Test for Reinforcing Steel: 2. Pull-out Test (7-II-128): Tentative Recommendations.” Materials and Structures 32 (6): 96–105.
  • Rilem, 1992. “Rilem TC-51 AAC 8.1 Pull-out Test for Reinforcement.” Materials and Structures 32 (6): 140–141.
  • Ruban, A. V., H. L. Skriver, and J. K. Nørskov. 2002. “Chapter 1 - Local Equilibrium Properties of Metallic Surface Alloys.” The Chemical Physics of Solid Surfaces 10: 1–29. doi:10.1016/S1571-0785(02)80088-8.
  • SA (Standards Australia). 1994. AS 3600: Australian Standard for Concrete Structures. Sydney, Australia: Standards Australia Limited.
  • Saikia, N., and J. de Brito. 2012. “Use of Plastic Waste as Aggregate in Cement Mortar and Concrete Preparation: A Review.” Construction and Building Materials 34 (1): 385–401. doi:10.1016/j.conbuildmat.2012.02.066.
  • Siddique, R., J. Khatib, and I. Kaur. 2008. “Use of Recycled Plastic in Concrete: A Review.” Waste Management 28 (10): 1835–1852. doi:10.1016/j.wasman.2007.09.011.
  • Siempu, R., and R. K. Pancharthi. 2017. “Bond Performance of Ribbed Steel Reinforcing Bars in Vibrated and self-compacting Concrete.” Proceedings of the Institution of Civil Engineers - Structures and Buildings 170 (6): 419–436. doi:10.1680/jstbu.16.00083.
  • Silva, R. V., J. de Brito, and N. Saikia. 2013. “Influence of Curing Conditions on the durability-related Performance of Concrete Made with Selected Plastic Waste Aggregates.” Cement and Concrete Composites 35 (1): 23–31. doi:10.1016/j.cemconcomp.2012.08.017.
  • Sule, J., S. Emmanuel, I. Joseph, O. Ibhadobe, B.Y. Alfred, F. I. Waziri. and E. Sunny 2017. “Use of Waste Plastics in Cement-Based Composite for Lightweight Concrete Production.” International Journal of Research in Engineering Technology 2 (5): 44–54.
  • Thomas, B. S., and R. C. Gupta. 2016. “A Comprehensive Review on the Applications of Waste Tire Rubber in Cement Concrete.” Renewable and Sustainable Energy Reviews 54: 1323–1333. doi:10.1016/j.rser.2015.10.092.
  • Thorneycroft, J., J. Orr, P. Savoikar, and R. J. Ball. 2018. “Performance of Structural Concrete with Recycled Plastic Waste as a Partial Replacement for Sand.” Construction and Building Materials 161: 63–69. doi:10.1016/j.conbuildmat.2017.11.127.
  • Van Oss, H. G. 2015. “CEMENT.” In Mineral Commodity Summaries, edited by Usgs, 38–39. Virginia, US: U.S. Geological Survey.
  • Waste and Resource Action Programme (WRAP) (2017). “The Construction Commitments: Halving Waste to Landfill. Benchmarks for Target Setting.” See http://www.sustainabilityexchange.ac.uk/files/wrap_benchmarks_for_target_setting.pdf (accessed 06 April 2020).
  • Windapo, A., and O. Ogunsanmi. 2014. “Construction Sector Views of Sustainable Building Materials.” Proceedings of the Institution of Civil Engineers: Engineering Sustainability 167 (2): 64–75. doi:10.1680/ensu.13.00011.
  • Wuchinich, D. 2015. “Acoustic Properties of Selected High Strength Thermosetting Plastic Composites at Ultrasonic Frequencies.” Physics Procedia 63: 208–216. doi:10.1016/j.phpro.2015.03.034.
  • Zhang, C., and L. Canning. 2011. “Application of non-conventional Materials in Construction.” Proceedings of Institution of Civil Engineers: Construction Materials 164 (4): 165–172. doi:10.1680/coma.900061.

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