![]() The variance in theoretical and experimental density values provides a thorough grasp of packing efficiency and inter-particle features. The e–SFCs’ theoretical density values were obtained. ![]() g/cm 3) at a true density of 0.7286 g/cm 3, experimental density of 0.928 g/cm 3 and tensile strength of 54.38 MPa.g/cm 3), with a 35.1% increase from the lowest value of 74.64 (MPa.The particle size with lowest true density of 0.5529 g/cm 3, experimental density of 0.949 g/cm 3 and tensile strength of 55.74 MPa resulted in e-SFCs with highest specific properties of 100.81 (MPa The variation in e–SFC density can be related to HGM packing efficiency within e–SFCs in terms of concentration and particle size regularity. It was observed that e–SFCs filled with an HGM of uniform particle sizes exhibit a reduction in density with increasing HGM concentration, whereas e-SFCs filled with heterogeneous sizes of HGM exhibit closeness in density values regardless of HGM concentration. Density analysis is used to investigate the impact of concentration and particle size regularity on the microstructure of e-SFCs. A solution casting approach is used to create hollow glass microsphere (HGM)-filled epoxy–syntactic foam composites (e–SFCs) by varying the concentrations of HGM in epoxy according to different particle sizes. ![]()
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