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This Matlab toolbox has been developed to plot and to analyze (nano)indentation data (with conical indenters). Please, have a look to the full documentation here: http://nims.readthedocs.org/en/latest/
To get started with the NIMS toolbox, clone the repository, then run Matlab, and cd into the folder containing this README file.
You can start the launcher by typing "demo" at the Matlab command prompt.
This Matlab toolbox has been developed to :
- Plot and Analyze nanoindentation dataset;
- Coefficient of the power law fit of the load-displacement curve;
- Energy of the loading (area below the load-displacement curve);
- Young's modulus and Hardness of bulk materials;
- Young's modulus of a thin film on a substrate or on a multilayer sample (3 layers on a substrate));
- Generate Python script for FEM simulation of indentation test on bulk or multilayer sample with ABAQUS 6.12 to ABAQUS 6.14.
Written by D. Mercier [1].
[1] Max-Planck-Institut für Eisenforschung, 40237 Düsseldorf, Germany (http://www.mpie.de/)
- Mercier D. et al., "Young's modulus measurement of a thin film from experimental nanoindentation performed on multilayer systems" (2010).
- Mercier D., "Behaviour laws of materials used in electrical contacts for « flip chip » technologies" (2013).
The author is grateful to Dr. V. Mandrillon from (CEA, France (Grenoble)) and to Dr. M. Verdier from (SIMaP, France (Grenoble)), for long discussions and many advices about nanoindentation.
The author is grateful to Dr. Igor Zlotnikov (Max Planck Institute of Colloids and Interfaces, Germany (Potsdam)), for providing example files.
Matlab Toolbox ; Graphical User Interface ; Nanoindentation ; Young's modulus ; thin film ; multilayer system ; analytical model ; finite element modelling.
Plot of the evolution of the Young's modulus of the sample in function of the indentation depth.
http://fr.mathworks.com/matlabcentral/fileexchange/43392-davidmercier-nims