Research Information System
MATERIALS CHARACTERIZATION, vol.59, no.4, pp.427-434, 2008 (SCI-Expanded)
Depth-sensing nanoindentation tests were made on beta-Sn single crystals having different growth directions. The indentation load-displacement curves of the samples were obtained under different peak loads ranging from 10 to 50 mN. The most commonly used Oliver-Pharr method was used to analyze the unloading segments of these curves. it was found that the dynamic nanohardness (H-d) and reduced elastic modulus (E-r) exhibited significant peak load dependence. The observed size dependence of the H-d was rationalized using classical Meyer's law, Proportional Specimen Resistance (PSR) and the Modified Proportional Specimen Resistance (MPSR) model. Reduced elastic modulus-indentation test load curves exhibited distinct transition to a plateau of constant E-r. It can be concluded that the transition in such curves correspond to the intrinsic E-r value of the examined materials. The examined single crystals also exhibit pop-in phenomenon attributed to the onset of dislocation nucleation activity underneath the indenter. (c) 2007 Elsevier Inc. All rights reserved.