Investigation of the Impact Response of Plain Weave E-Glass Composite Structure Based on the EN ISO 178 Standard

Abstract

In this investigation, The impact response of composite materials constructed with plain weave E-Glass has been analysed numerically. The numerical analysis has been appropriately validated through the utilisation of the experimental work. Energy conservation and the current condition of affairs have both been the subject of extensive research. Following its conclusion, the impact test was assessed to have lasted a total of 6 e-5 seconds. A significant transformation has taken place in the energy that is emanating from the hourglass. The value decreased progressively from 3.5 e-7 J at 0 seconds to 1 e-5 seconds prior to reaching a stable state. A novel maximal strain of 0.0003 mm/mm has been identified as being achievable through the application of elastic strain. It is feasible to obtain this novel maximal strain. An empirical investigation revealed the application of a cumulative force measuring 7868.7 N. The structure has experienced a complete deformation of 0.0014 mm in the midsection as a direct result of the simulation implementation. The present value of tension is an unprecedented maximum of 0.0013 mm, which is the highest value conceivably achievable.