Observation, analysis, and simulation of the hysteresis of silicon using ultra-micro-indentation with spherical indenters

Author:

Weppelmann E.R.,Field J.S.,Swain M.V.

Abstract

The recently reported hysteretic behavior of silicon under indentation (Clarke et al.1 and Pharret al.2-5) is investigated using an ultra-micro-indentation system with an 8.5 μm spherical-tipped indenter. The onset of “plastic” behavior during loading and hysteresis during unloading was readily observed at loads in excess of 70 mN. Cracking about the residual impression was observed only at loads of 350 mN and higher. An analysis of the data is presented that estimates the following: (1) the initial onset of deformation occurs at a mean pressure of 11.8 ± 0.6 GPa, (2) the mean pressure at higher loads is 11.3 ± 1.3 GPa, and (3) the hysteretic transition on unloading occurs at mean pressures between 7.5 and 9.1 GPa. These values are in good agreement with the accepted literature values for the known silicon transformation pressures. A simulation of the force-displacement data based on the analysis and model is presented and is found to fit the observations very well.

Publisher

Springer Science and Business Media LLC

Subject

Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science

Reference21 articles.

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2. 20 Puttock M. J. and Thwaite E. G. , “Elastic Compression of Spheres and Cylinders at Point and Line Contact,” CSIRO Australia, National Measurement Laboratory, Technical Paper No. 25 (1969).

3. Indentation fracture: principles and applications

4. A simple predictive model for spherical indentation

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