This book presents the experimental analysis was conducted on Polyvinyl ester/Glass Fiber composite with Alumina (Al2O3), Molybdenum disulfide (MoS2) and Titanium oxide (TiO2) fillers. The wear loss is directly proportional to sliding velocity and load. Fillers filled composite materials are having high wear resistance and low specific wear rate. The hardness of filled composite was substantial compared to the hardness of unfilled composite. The increase in % of filler has enhanced the ultimate strength monotonously except for 12.5% of TiO2 filler in the polyvinyl ester/GF composites. The addition of Al2O3 filler has better Young's modulus compared to other fillers and maximum Young's modulus was observed for 12.5% Al2O3 and there is a drastic increase in Young's modulus to almost 40% compared with 7.5% Al2O3 polyvinyl ester composite. Flexural strength of particulate filled polyvinyl ester composite composites improved due to strong interfacial adhesion and the surface roughness act as mechanical interlocking. It is also evident that the addition of MoS2 filler is more beneficial than that of Al2O3 filler in improving the flexural strength and modulus of polyvinyl ester/GF compos