Correia AAS, Oliveira PVJ, Custodio DG (2015) Effect of polypropylene fibers on the compressive and tensile strength of soft soil artificially stabilized with binders. Geotext Geomembr 43:97-106
ASTM D4595 (2011) Standard test method for tensile properties of geotextiles by the wide-width strip method D4595, West Conshohocken, PA.
Babu SGL, Chouskey SK (2011) Stress-Strain Response of Plastic Waste Mixed Soil. Waste Manag J 31(3):481-488
Botero E, Ossa A, Sherwell G, Ovando-Shelley E (2015) Stress–strain behavior of a silty soil reinforced with polyethylene terephthalate (PET). Geotext Geomembr 43(4):363-369
Boz A, Sezer A, Ozdemir T, Hızal GE, Dolmaci OA (2018) Mechanical properties of lime-treated clay reinforced with different types of randomly distributed fibers. Arab Geosci J 11(6):122
Chen M, Shen SL, Arulrajah A, Wu HN, Hou DW, Xu YS (2015) Laboratory evaluation on the effectiveness of polypropylene fibers on the strength of fiber-reinforced and cement-stabilized Shanghai soft clay. Geotext Geomembr 43:515-523
Choudhary AK, Jha JN, Gill KS (2010) Utilization of Plastic Wastes for Improving the Sub-grades in Flexible Pavements. Paving Materials and Pavement Analysis, ASCE Geotechnical special publication no. 203, Proceedings of Geo-Shanghai International conference (ASCE), Shanghai, China, pp 320-325
Consoli NC, Montardo JP, Prietto PDM, Pasa GS (2002) Engineering behavior of a sand reinforced with plastic waste. Geotech Geoenviron J 128(6):462-472
Deb K, Narnaware YK (2015) Strength and compressibility characteristics of fiber-reinforced subgrade and their effects on response of granular fill-subgrade system. Transportation in developing Economies, A Journal of the Transportation Research Group of India, Springer, 1(2):1-9
Ilies NM, Circu AP, Nagy AC, Ciubotaru VC, Kisfaludui-Bak Z (2017) Comparative study on soil stabilization with polypropylene waste materials and binders. Procedia Eng 181(2017):444-451
Jegan BKA, Salini U (2019) Use of Shredded Waste Plastic in Stabilization of Subgrade Soil. Proceedings of the international conference on geotechnics for high speed corridors, Trivandrum, pp 524-526
Kalumba D, Chebet FC (2013) Utilization of polyethylene (plastic) shopping bags waste for soil improvement in sandy soils. Proceedings of the 18th international conference on soil mechanics and geotechnical engineering, Paris, pp 3223-3226
Kaniraj SR, Havanagi VG (2001) Behavior of cement-stabilized fiber-reinforced fly ash–soil mixtures. Geotech Geoenviron J 127(7):574–584
Khan PE, Hossain PE, Kibria G (2016) Slope stabilization using recycled plastic pins. Perform Constr J 30(3)
Muntohar AS (2009) Influence of plastic waste fibers on the strength of lime-rice husk ash stabilized clay soil. Civ Eng Dimens J 11(1):32-40
Muntohar AS, Widianti A, Hartono E, Diana W (2013) Engineering properties of silty soil stabilized with lime and rise husk ash and reinforced with waste plastic fiber. Mater Civil Eng J 25(9):1260-1270 Data sets. https://ascelibrary.org/doi/abs/10.1061/%28ASCE%29MT.1943-5533.0000659
Okoro C, Vogtman J, Yousif A, Agnaou M, Khoury N (2011) Consolidation characteristics of soils stabilized with lime, coal combustion product and plastic waste. Proceedings of Geo-frontiers 2011 pp 1202-1209
Peddaiah S, Burman A, Sreedeep S (2018) Experimental study on effect of waste plastic bottle strips in soil improvement. Geotech Geol Eng J 36(5):2907-2920
Santoni RL, Tingle JS, Webster SL (2001) Engineering properties of sand-fiber mixtures for road construction. Geotech Geoenviron J 127(3):258-268
Tang CS, Shi B, Gao W, Chen FJ, Cai Y (2007) Strength and mechanical behavior of short polypropylene fiber reinforced and cement stabilized clayey soil. Geotext Geomembr 25(3):194-202
Thorneycroft J, Ball RJ (2017) Performance of structural concrete with recycled plastic waste as a partial replacement for sand. Construction and Building Materials. DOI: 10.1016/j.conbuildmat.2017.11.127