%0 Computer Program
%A Oprel, Jens
%A Wolterink, Gerjan
%A Schilder, Jurnan
%A Krijnen, Gijs
%D 2023
%T Models and Optimization Tools for a Novel 3D Printed Capacitive Shear Stress Sensor
%U https://data.4tu.nl/articles/software/_/19188098
%R 10.4121/19188098.v1
%K Capacitive Modeling
%K Mechanical Modeling
%K Capacitive Sensor
%K Printed Sensor
%K Shear Stress
%X <p>These files contain the models and optimization tools for study and development of a 3D-printed capacitive shear stress sensor. This research is described in our research paper:</p><p>Oprel, J., Wolterink, G., Schilder, J., Krijnen, G. (2023). Novel 3D Printed</p><p>Capacitive Shear Stress Sensor. Journal of Additive Manufacturing.</p><p>doi: 10.1016/j.addma.2023.103674</p><p>The models are used to study the electrical and the mechanical behavior of printed sensing structures. The main models are made using Matlab. Additionally, Finite Element (FE) models are used to verify these results. This is done using Comsol Multiphysics, which is controlled from a Matlab environment using 'Comsol livelink for Matlab'. The models are integrated in an optimization tool, in the form of a Matlab App.</p>
%I 4TU.ResearchData