Determination of elastic moduli of elastic–plastic microspherical materials using nanoindentation simulation without mechanical polishing

Abstract: When using the Oliver–Pharr method, the indented specimen is assumed to be a perfectly flat surface, thus ignoring the influences of surface roughness that might be encountered in experiment. For nanoindentation measurements, a flat surface is fabricated from curved specimens by mechanical polishing. However, the position of the polished curved surface cannot be controlled. There are no reliable theoretical or experimental methods to evaluate the mechanical behavior during nanoindentation of an elastic–plastic… Show more

“…The area below each of the loading curves (total energy applied) and unloading curves (elastic energy) make it possible to determine the percentage of plastic energy dissipated for the sample [41][42][43]. Moreover, another way to visualize the interval of the ferroelastic behavior is through the load penetration curve of figure 8.…”

Nanomechanical-ferroelastics behavior, and the low-temperature ferroelectric manifestation of BiMnO₃ thin films

“…The area below each of the loading curves (total energy applied) and unloading curves (elastic energy) make it possible to determine the percentage of plastic energy dissipated for the sample [41][42][43]. Moreover, another way to visualize the interval of the ferroelastic behavior is through the load penetration curve of figure 8.…”

Nanomechanical-ferroelastics behavior, and the low-temperature ferroelectric manifestation of BiMnO₃ thin films

Predicting and Characterizing Plastic Deformation Behavior of Transversely-isotropic Carbon Fiber Monofilament Using Finite Element Simulation and Nanoindentation