Reddy, B. Madhusudhan, Reddy, R. Meenakshi, Reddy, B.Chandra Mohan, Reddy, P. Venkateshwar, Rao, H. Raghavendra, and Reddy, Y.V. Mohan
Environmental and societal concerns such as pollution, disposal of solid waste, requirement of different conflicting properties for materials in varied applications and cost are the main reasons for the development of new materials from the existing materials. The concerns may possibly be overcome by substituting natural fibers for synthetic fibers. In this study, a hybrid composite was developed by reinforcing the natural fiber "cordia dichotoma" and filler "granite powder" into polyester resin. This composite was fabricated using hand lay-up method. Cordia dichotoma fibers were surface treated with NaOH for reducing the hydrophilic nature of the fiber. Unused industrial waste in the form of granite powder obtained from the granite polishing industry is utilized as reinforcement in polymer composite. The hybrid composite was prepared by reinforcing a constant cordia dichotoma fiber content of 20 wt % and varying the granite powder weight (wt. %) percentages (0, 5, 10, 15, and 20) into polyester resin. Mechanical properties (tensile, flexural and impact) of hybrid composites were investigated. The novelty of this work lies in utilization of granite powder sourced from industrial waste utilized as filler material. Granite, as one of the hard materials, may improve wear and other mechanical properties. Following the results obtained, granite powder could be evidenced as a good filler material for the betterment of composites mechanical properties. Also, the ability of this filler material is proved in decreasing water absorption and chemical resistance. Scanning electron microscope (SEM) analysis was performed to investigate the bonding and distribution of granite powder within both the fiber as well as resin in the composite. Besides, the presence of chemical functional groups in the composite was traced by Fourier transform Infrared spectroscopy (FTIR). Also, Thermo-gravimetric analysis (TGA) was carried out and the composite was found to be thermally stable up to 415 °C. • When granite fillers were added up to 15 wt %, increase in the tensile, flexural and impact strengths were observed. • Water and chemical absorption characteristics of the composite decreased with the addition of granite filler. • TGA of granite filled hybrid polyester composite exhibited a two-stage degradation pattern with a weight loss of 10% and 55%. • FTIR graph revealed that Si–O bonding is present in the granite filler fiber-reinforced polymer composite. [ABSTRACT FROM AUTHOR]