Investigation of Loading-Unloading Curve and Stress Distribution of Thin Hard Coating by Finite Element Analysis during Nanoindentation Process

Abstract: This study applies the finite element method (FEM) in conjunction with an nanoindentation test to predict the loading curve and stress distribution of thin hard coatings. To verify the prediction of FEM simulation for loading and unloading process, the experimental data are compared with the results of current simulation. Loading curve is investigated for different material parameters, such as elastic modulus E, yield stress Y0 and tangent modulus ET of nanoindentation process, by finite element analysis. The … Show more

“…Finite element analysis is often used to imitate experimental setups [12] such as tensile testing [13][14][15][16] and hardness measurements [17][18][19]. A significant amount of work has been done on the indentation of thin films and a comprehensive bibliography of previous finite element analysis studies related to this problem has been compiled by Mackerle [21].…”

Indentation behavior of highly confined elasto-plastic materials

“…Finite element analysis is often used to imitate experimental setups [12] such as tensile testing [13][14][15][16] and hardness measurements [17][18][19]. A significant amount of work has been done on the indentation of thin films and a comprehensive bibliography of previous finite element analysis studies related to this problem has been compiled by Mackerle [21].…”

Indentation behavior of highly confined elasto-plastic materials