Department of Physics, Society of Physics Students, Queens Campus

High speed deformation conditions are relevant to military as well as to civilians. Armors may encounter ballistic impact and blast, while automobiles may crash at high speeds. Understanding the response of armor and automotive materials at such loading rates is as important as understanding their effect on humans. The response of soft and hard tissue to mechanical loading is significantly different. The hard tissue, femur bones, is selected for initial studies.

This presentation is aimed at discussing the high strain rate compression test technique and the results obtained on rabbit femur bones. The bones were also characterized under quasi-static compression to enable comparison with the high strain rate results. The quasi-static compressive moduli of the epiphyseal and diaphyseal regions were measured to be in the range of 2–3 and 5–7 GPa, respectively. The strength at high strain rate was measured to be about twice the quasi-static strength value. A large number of small cracks initiated on the specimen surface close to the incident bar. Coalescence of crack branches leading to fewer large cracks resulted in specimen fragmentation. In comparison, the quasi-static failure was due to shear cracking. The difference in the failure mode based on strain rates is important for designing protective gears and developing treatment protocols.

Come join us! Food and drinks will be served.