PhD researcher
Subproject 1: Modeling and development of textile adaptive structures for complex deformable adaptive rubber composites
TU Dresden, Faculy of Mechanical Science and Engineering, Institute of Textile Machinery and High Performance Material Technology (ITM)
Subproject 2: Continuous in-situ measuring of deformation and stress distribution in I-FRC using structurally integrated 3D sensor networks
TU Dresden, Faculy of Mechanical Science and Engineering, Institute of Textile Machinery and High Performance Material Technology (ITM)
Subproject 3: Materials and process design of elastomers with material-integrated locally adjustable sensoric and adaptive properties
TU Dresden, Faculty of Mechanical Science and Engineering, Institute of Materials Science (IfWW), Junior Professorship for Rubber Materials & Leibniz Institute for Polymer Research Dresden e.V. (IPF), Dept. of Elastomers
Subproject 4: Model development of actoric action mechanisms in magneto-sensitive fiber rubber composites
TU Dresden, Faculty of Mechanical Science and Engineering, Institute of Fluid Mechanics & Leibniz Institute of Polymer Science Dresden e.V. (IPF), Institute Theory of Polymers
Subproject 5: Theoretical modeling and experimental characterization of heat transport in interactive fiber rubber composites
TU Dresden, Faculty of Mechanical Science and Engineering, Insitute of Power Engineering (IET), Chair of Technical Thermodynamics
Subproject 6: Constitutive modeling and multi-scale multi-physical simulation of I-FRC
TU Dresden, Faculty of Civil Engineering at TU Dresden, Institute of Structural Dynamics (ISD)
Subproject 7: Modeling and metrological evaluation of adaptive components in I-FRCs using electro-mechanical network models
TU Dresden, Faculty of Electro and Computer Engineering, Institute of Solid State Electronics (IFE)
Subproject 8: Electro-mechanical modeling and metrological evaluation of I-FRCs with material-integrated sensors
TU Dresden, Faculty of Electro and Computer Engineering, Institute of Solid State Electronics (IFE)
Subproject 9: Open- and closed-loop control for system integration in interactive fiber rubber composites
TU Dresden, Faculty of Electrical and Computer Engineering, Institute of Control Theory (RST)
Subproject 10: Test strategies for the in-situ characterization of structure-property correlations and corresponding damage mechanisms of I-FRC
TU Dresden, Faculty of Mechanical Science and Engineering, Institute of Materials Science (IfWW), Chair of Materials Mechanics and Defect Analysis
Subproject 11: Methodical development of active multi-matrix composite (MMC) components
TU Dresden, Faculty of Mechanical Science and Engineering, Institute of Lightweight Engineering and Polymer Technology (ILK), Chair of Function-Integrative Lightweight Engineering
