Nanoindentation Study of Pop-in Phenomenon Characteristics and Mechanical Properties of Sapphire (1012) Crystal

摘要

The pop-in behavior and mechanical properties of sapphire crystal vertically indented to its rhombohedral R (1012) plane were investigated by nanoindentation using a Berkovich inden-ter. Effect of loading rate on pop-in load and pop-in extension width was observed within the indentation depth of h < 120 nm. The indentation size effect (ISE) of hardness within an indentation depth of 60 nm was systematically analyzed using Nix-Gao and Al-Rub models. Our experiments provided the consistent evaluations of hardness (H = 27.5 GPa), true hardness (H_(true) = 68.9 GPa) at the non-ISE region and effective indentation modulus (M = 423 GPa) for the contact depth of h_c > 20 nm. Using the Hertzian contact theory, Sch-mid's law, and energy principle of indentation, the possible dominant slip system, which mainly contributed to the first pop-in event when indented normal to the (1012) plane, was estimated as {1011} <1210>. The distributions of corresponding resolved shear stress and principal stresses at the slip plane were also estimated.