Browsing by Author "Navarathne, H.G."
Now showing 1 - 1 of 1
Results Per Page
Sort Options
Item Development of Novel Composite Material Using Waste Polyethylene Incorporated with Calcium Carbonate Obtained from Sri Lankan Calcite(Uva Wellassa University of Sri Lanka, 2020) Navarathne, H.G.; Senarathna, K.G.C.Today, there is a great need for the reduction of polyethylene waste to reduce environmental pollution. The main objective of this study is to develop a novel composite material using waste polyethylene reinforced with calcite to make polyethylene/calcite composite. Calcite taken from the Lanka Mineral and Chemicals (Pvt) Ltd. is used as the reinforcement for the composite and low-density polyethylene obtained from waste shopping bags is used as the polymer matrix. Sample series of octadecanoic acid-coated calcite powder and unmodified calcite nanoparticles are used to synthesis the composite. The in-situ deposition is used to synthesize nanoparticles from raw calcite. Calcite is incorporated into low-density polyethylene with different ratios and properties are characterized to obtain the optimum strength. Calcite powder is characterized using particle size analyzer, X-ray diffractometer, and Fourier transforms infrared spectroscopy. The composite is characterized by tensile tests, compression tests, and differential scanning calorimetry tests. Calcite nanoparticles obtained 23.2×10-9 m of average particle size after In-situ deposition. Only the polymeric material acquired 64.57×106 N m-2 of tensile strength and 44.62×106 N m-2 of compressive strength. Tensile strength is increased up to 69.87×106 N m-2 , 78.98×106 N m-2 , 66.41×106 N m-2 and compressive strength is reached to 90.58×106 N m-2 , 102.28×106 N m-2 , 75.98×106 N m-2 when polyethylene combined with raw calcite powder, calcite nanoparticles, and surfacemodified calcite powder (5:3 of polyethylene/calcite ratio) respectively. It provides evidence that the low-density polyethylene with calcite reinforcement attained to better mechanical properties than only the polymeric material. Keywords: Low-density polyethylene, Nanoparticles, Surface modified, In-situ deposition