Utilization of LDPE and HDPE Plastic Waste in Bitumen an Experimental Investigation : A Review

Authors

  • Rohit Mishra P. G. Scholar, Department of Civil Engineering, Eklavya University, Damoh, Madhya Pradesh, India Author
  • Pankaj Agrawal Pankaj Agrawal, Department of Civil Engineering, Eklavya University, Damoh, Madhya Pradesh, India Author

Keywords:

Zykoterm, LPDE, HPDE, Dense Bituminous Macadam, Marshall Stability

Abstract

This study presents the use of waste polythene carry bags in flexible pavement construction. Reclaimed plastic waste derived from low density polyethylene as well as from high density polythene (LDPE & HDPE) carry bags from kitchen waste and pond liner polythene have been used as additive in flexible pavements. In this study we will also add a fix percentage of Zykotherm (ZycoTherm is an odor free additive that increases moisture resistance while lowering mixing and compaction termperature up to 65° F.) Purposes of using above materials are to utilize environmentally unacceptable waste material and to develop a better material mix to resist increased traffic load, temperature effect and pressure resulted in cracks in the pavement surface. In the proposed study the plastic waste will be cleaned and cut into a size such that it passes through 2-3mm sieve using shredding machine. In this paper presenting review of literature related to utilization of waste in bitumen.

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References

Reinke and Glidden year (2002) Effects of High density polythene on the permanent deformation of asphalt concrete. Indian Journal of Engineering and Material Science. 12: 456-460.

Mohammad T et. al. year (2007)” Viscous properties and microstructure of recycled over modified bitumen. Fuel. 83(1): 31-38.

Awwad and Shbeebyear (2007) “Influence of the processing conditions on the rheological behavior of polymer-modified bitumen. Fuel. 82(11): 1339-1348.

Fernandes et al. year (2008)” Relation between polymer architecture and nonlinear visco elastic behavior of modified asphalts. Current Opinion in Colloid and Interface Science. 11: 230-245.

Sabina et al. year (2009) “Warm Mix Asphalt Paving Technologies: a Road Builder’s Perspective” Paper presentation of annual conference Transportation Association of Canada”.

Yousefiyear (2009)” Bitumen modification with reactive and non-reactive (virgin and recycled) polymers: A comparative analysis. Journal of Industrial and Engineering Chemistry. 15(4): 458-464.

Bindu and Beenayear (2010) “ Performance of Low-Carbon Environmental Warm Mix Asphalt”, American Society of Civil Engineers”.

Albasheeret. al. year (2011) “Evaluation of Aspha-Min zeolite for use in warm mix asphalt.” National Center for Asphalt Technology Report 05-04. Auburn University, Auburn, Alabama.

Gawande year (2012) “Specifications for Roads and Bridge Works”- 2004, Fifth revision, Indian Roads Congress, New Delhi.

Khan and Gundaliyayear (2012) “Laboratory Evaluation of Warm Asphalt Technology for use in Virginia.” Virginia Transportation Research Council Report. In cooperation with the U.S Department of Transportation, VTRC 09-R11.

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Published

30-05-2024

Issue

Section

Research Articles

How to Cite

Rohit Mishra, & Pankaj Agrawal. (2024). Utilization of LDPE and HDPE Plastic Waste in Bitumen an Experimental Investigation : A Review. International Journal of Scientific Research in Civil Engineering, 8(3), 52-60. https://ijsrce.com/index.php/home/article/view/IJSRCE24836

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