Resumen
Measurements of mechanical properties by instrumented indentation rely heavily upon the relationship between the unloading contact stiffness, S u, the projected contact area, Ac, and the reduced modulus, Er. This relationship is written in the form Su = 2βEr(Ac/π)1/2, where β is a correction factor that depends on the material properties, the geometry of the indenter and also the penetration depth. In practice, the correction factor is generally assumed constant for a given tip geometry. However, numerical simulations of indentation test performed on purely elastic materials have evidenced that β strongly depends on the penetration depth/tip radius ratio. In this work, the dependence of β on the penetration depth and tip blunting is studied by FEA in the case of elastic-plastic materials generally encountered in engineering. The consequence of not taking into account the influence of β on hardness measurements is also investigated.
Título traducido de la contribución | Numerical analysis of the depth-dependent correction factor influence on hardness measurements in indentation testing of elastic-plastic materials |
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Idioma original | Francés |
Páginas (desde-hasta) | 179-184 |
Número de páginas | 6 |
Publicación | Materiaux et Techniques |
Volumen | 99 |
N.º | 2 |
DOI | |
Estado | Publicada - 2011 |