TY - GEN
T1 - Energy attenuation capability of woven natural silk (WNS)/epoxy composites plates subjected to drop-weight impacts
AU - Ude, Albert Uchenna
AU - Sopian, Kamauzzaman
AU - Azhari, Che Husna
PY - 2010
Y1 - 2010
N2 - The impact energy attenuation and damage characteristics of woven natural silk (WNS)/epoxy laminated composite panels were evaluated. The Samples prepared in configurations of sandwich WNS/epoxy/honeycomb, WNS/epoxy/coremat WNS/epoxy/foam and reinforced WNS/Epoxy laminate panels were subjected to low velocity impact loading at energy levels of 32J, 48J and 64J respectively. Impact parameters like load- deflection, load-time and absorbedenergy-time behaviour were measured for evaluating the impact performance in terms of load bearing capabilities, energy absorption and failure modes. Evaluation of the results showed WNS/epoxy/coremat as possessing better load bearing capability qualities. In general energy absorption decreases as impact energy increases in all the composite samples; WNS/epoxy/foam was seen as better energy absorber. Damage areas increases as impact energy increases while time to response decreases with increase in impact energy in all the configurations. SEM micrographs show mode of failure as matrix crack, delamination and fibre breakage.
AB - The impact energy attenuation and damage characteristics of woven natural silk (WNS)/epoxy laminated composite panels were evaluated. The Samples prepared in configurations of sandwich WNS/epoxy/honeycomb, WNS/epoxy/coremat WNS/epoxy/foam and reinforced WNS/Epoxy laminate panels were subjected to low velocity impact loading at energy levels of 32J, 48J and 64J respectively. Impact parameters like load- deflection, load-time and absorbedenergy-time behaviour were measured for evaluating the impact performance in terms of load bearing capabilities, energy absorption and failure modes. Evaluation of the results showed WNS/epoxy/coremat as possessing better load bearing capability qualities. In general energy absorption decreases as impact energy increases in all the composite samples; WNS/epoxy/foam was seen as better energy absorber. Damage areas increases as impact energy increases while time to response decreases with increase in impact energy in all the configurations. SEM micrographs show mode of failure as matrix crack, delamination and fibre breakage.
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M3 - Conference contribution
AN - SCOPUS:77952623822
SN - 9780873397520
T3 - TMS Annual Meeting
SP - 115
EP - 122
BT - TMS 2010 - 139th Annual Meeting and Exhibition - Supplemental Proceedings
T2 - TMS 2010 - 139th Annual Meeting and Exhibition
Y2 - 14 February 2010 through 18 February 2010
ER -