Extension of the Hertz model for accounting to surface tension in nano-indentation tests of soft materials


Abstract in English

The contact between a spherical indenter and a solid is considered. A numerical finite element model (F. E. M) to taking into account the surface tension of the solid is presented and assessed. It is shown that for nano-indentation of soft materials, the surface tension of the solid influences significantly the reaction force due to indentation. The validity of the classical Hertz model is defined. In very good approximation, the force vs. indentation depth curve can be fitted by a power law function $F=a^delta b$ where $F$ denotes the force acting on the indentor, $d$ the indentation depth, $a$ and $bin ]1,1.5]$ are constants depending on the materials and the size of the indentor.

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