Utilization of polymers, particularly Fiber Reinforced Plastics (FRP) offers a few benefits to accomplish powerful and solid constructions which is more significant for current natural circumstance. In this present investigations, the impact energy conduct of composite construction with bio filler has been researched under low velocity impact load circumstance. The coconut husk is utilized as a bio filler, while the epoxy resin is chosen as matrix material. Glass fiber has been utilized as reinforcement material. Every specimens have been made by hand layup method and combined by utilizing compression molding machine at 70 °C, with 8 bar pressure for 5 min. The specimens with four diverse direction and stacking succession are prepared. The elements of the specimens are in agreement to ASTM standard D5628. The examinations have been done on specimens by exposed it to the diverse impact energies by utilizing an impact testing machine. Different boundaries viz. energy absorption, deformation and force have been assessed from the investigations. The tested specimens were outwardly examined to contemplate the fracture behavior with respect to position of glass fiber in the cover. The experimental outcomes under low velocity impact circumstance would be correlated with standard existing literature results. The eventual outcome demonstrates that composite with filler shows superior properties than the ordinary glass/epoxy laminates under impact load circumstance.