@article{Bergmann_Dallinger_Bensing_Keil_Golder_Moneke_2020, title={Calculation Approaches for Determining the Sliding Friction Coefficient – Analytical Consideration and FE-Modelling}, volume={1}, url={https://www.bibliothek.tu-chemnitz.de/ojs/index.php/innoTRAC/article/view/460}, DOI={10.14464/innotrac.v1i0.460}, abstractNote={<p><span class="fontstyle0">Microstructures on polymer surfaces are known to reduce friction and the<br>visibility of scratches. Due to the complex interaction of multiple surface areas in contact<br>with each other the prediction of coefficient of friction (COF) or wear is difficult and depends<br>on an empirical solution. This article deals with possibilities of calculating the deforming<br>part of friction via an analytical solution and a FE-model. In a first step the modelling of<br>single contacts is demonstrated. The analytical calculation based on the Hertzian contact<br>equations is extended regarding viscoelastic material parameters. The basic approach of<br>FE-modelling is explained including calibration of the material model using the software<br>MCalibration®. The article introduces the different procedures of simulating and modelling<br>COF and wear taking into account the area of contact and resulting stress distribution.</span></p>}, journal={innoTRAC Journal}, author={Bergmann, André and Dallinger, Niels and Bensing, Timo and Keil, Yvonne and Golder, Markus and Moneke, Martin}, year={2020}, month={Dec.}, pages={95–106} }