%0 Journal Article %A Soni, A. %A Das, P.K. %A Yusuf, M. %A Pasha, A.A. %A Irshad, K. %A Bourchak, M. %D 2023 %F scholars:18046 %J Environmental Science and Pollution Research %K polyethylene; polypropylene; silicon dioxide, Oryza; sand, Oryza; Polyethylene; Polypropylenes; Sand; Silicon Dioxide %N 60 %P 124566-124584 %R 10.1007/s11356-022-20915-6 %T Synergy of RHA and silica sand on physico-mechanical and tribological properties of waste plastic�reinforced thermoplastic composites as floor tiles %U https://khub.utp.edu.my/scholars/18046/ %V 30 %X The usage of waste for the development of sustainable building materials has received an increasing attention in socio-eco-environment spheres. The rice husk ash (RHA) produced during burning of rice husk and the ever-increasing plastic wastes are useless causing detrimental effects on the environment. This research supports the idea of sustainability and circular economy via utilization of waste to produce value-added products. This research explores the potential of waste plastics, RHA, and silica sand as thermoplastic composite materials. The different composite samples were prepared through waste plastics which includes low- and high-density polyethylene and polypropylene with incorporation of RHA and silica sand in proportions. The study investigates the effect of filler/polymer in 30/70, 20/80, and 10/90 (wt. ) on the workability of the developed composite materials. The workability of the composites was found to improve with filler reinforcement. The experimental results showed the maximum density of 1.676 g/cm3 and mechanical strength of 26.39, 4.89, and 3.25 MPa as compressive, flexural, and tensile strengths, respectively. The minimum percentage of water absorption was 0.052. The wear tests resulted in a minimum abrasive and sliding wear rate of 0.03759 (cm3) and 0.00692 � 10�6 kg/m. The correlations between wear mechanisms and responses were morphologically analyzed. The developed composites verify the feasibility of RHA and plastics waste as a cost effective and environmentally competent product. The results and discussions provided a direction for the future research on sustainable polymeric composite materials. Graphical abstract: Figure not available: see fulltext. © 2022, The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature. %Z cited By 11