Strain rate dependent compressive properties of glass microballoon epoxy syntactic foams

The existing functionally graded syntactic foams (FGSFs) are based on creating a gradient of microballoon (hollow particles) volume fraction along the length or thickness of the composite to achieve a variation in density and mechanical properties. However, such an approach has several limitations.

Epoxy resins with various ratios from two kinds of curing agents, ethylenediamine (EDA) and N,N'-dimethylethylenediamine (MeEDA), were prepared. In order to examine the strain rate and temperature dependence of the shear yield strength and the shear strength, test specimens were subjected to shear d

The present study examines the effects of the strain rate on the compressive properties of carbon fiber-reinforced composite in a submarine environment. The material system used was graphite/epoxy prepreg tapes, where the volume fraction of fiber was 64%. Compressive tests have been performed in thr

Fiber-reinforced polymeric composites exhibit excellent mechanical properties over conventional engineering materials especially due to their great weight saving. Therefore, by considering the specific attributes of these materials, having a proper knowledge of dynamic behavior as well as static beh

Normal and carbon-fiber-reinforced (1 wt. forced bone cement. The mechanical %) bone cement samples were tested in properties, namely the modulus of elasticity, compression at various strain rates. Both the proportional limit, and the compressive the compressive strength and proportional strength of