Professor
© TUD/NEFM
Professor for Computational and Experimental Solid Mechanics
NameProf. Dr.-Ing. habil. Markus Kästner
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Chair of Computational and Experimental Solid Mechanics
Visiting address:
Zeunerbau, Room 353 George-Bähr-Straße 3c
01069 Dresden
Research
Data-driven analysis of processes, materials and structures
- Microstructure characterisation and reconstruction
- Description of Process-Structure-Property (PSP) linkages
- Exploration of PSP linkages and optimization
- Virtual Sensing und clustering for load and stress analysis
- Digital twins for predictive maintenance
Development of data- and model-driven modeling techniques
- Physics-constrained neural networks for material modeling
- Data-driven multi-scale modeling with automated data augmentation
- Phase-field modeling of fracture and structural evolution processes
- Modeling of coupled boundary value problems
- Homogenization techniques for coupled problems
- Adaptive Isogeometric Analysis (IGA)
- Extended Finite Element Method (XFEM)
Experimental characterization and modeling of materials
- Damage and failure of additively manufactured materials
- Process-dependent fatigue behavior of materials
- Inelastic, rate-dependent material behavior of polymers
- Damage and failure of fibre reinforced composites
- Magnetosensitive elastomers and fluids
- Parameter identification and experimental validation of material models
Selected projects
- DFG-Priority Programme SPP 2489 DaMic
- DFG-Research Training Group GRK 2868 D³
- AMTwin - Data-driven analysis of processes, materials and structures for additive manufacturing
- ePredict - Predictive maintenance for electromobility
- LRVTwin - a digital twin for light rail vehicles
- Drucksache - multiscale characterization and modeling of additively manufactured lattice structures
Publications
2021
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Digitales Vortragsseminar, 2021, In: Lessons Learned. 1, 1/2, 9 p.Electronic (full-text) versionResearch output: Contribution to journal > Conference article
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Hybride Hohlstrukturen für Wellen und Streben, 2021, Intrinsische Hybridverbunde für Leichtbautragstrukturen: Grundlagen der Fertigung, Charakterisierung und Auslegung. Fleischer, J. (ed.). Neuerscheinung ed., Springer Vieweg, Wiesbaden, p. 205-264, 60 p.Electronic (full-text) versionResearch output: Contribution to book/conference proceedings/anthology/report > Chapter in book/anthology/report
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Micromechanical analysis of failure in fiber reinforced polymer-metal structures, 2021Electronic (full-text) versionResearch output: Contribution to conferences > Paper
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Parameter study on a phase-field model for fatigue fracture, 2021Electronic (full-text) versionResearch output: Contribution to conferences > Paper
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Particle Interactions in Magneto‐Active Elastomers: Experiments and Simulations, 2021, In: Proceedings in applied mathematics and mechanics : PAMM. 20 (2020), 1, p. e202000277, 2 p.Electronic (full-text) versionResearch output: Contribution to journal > Conference article
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Phase-Field Simulation of Crack Propagation at Adhesive Interfaces in Brittle Materials, 2021, In: Proceedings in applied mathematics and mechanics : PAMMElectronic (full-text) versionResearch output: Contribution to journal > Conference article
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Thermodynamically consistent constitutive modeling of isotropic hyperelasticity based on artificial neural networks, 2021, In: Proceedings in applied mathematics and mechanics : PAMM. 21, 1, p. e202100144, 3 p.Electronic (full-text) versionResearch output: Contribution to journal > Conference article
2020
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Determination of the entire stent surface area by a new analytical method, 2 Dec 2020, In: Materials. 13, 24, p. 1-11, 11 p., 5633Electronic (full-text) versionResearch output: Contribution to journal > Research article
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Corrigendum: Field-induced interactions in magneto-active elastomers—a comparison of experiments and simulations (2020 Smart Mater. Struct. 29 085026), 6 Oct 2020, In: Smart materials and structures. Vol. 29 (2020)Electronic (full-text) versionResearch output: Contribution to specialist publication > Corrections (errata and retractions)
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A macroscopic model for magnetorheological elastomers based on microscopic simulations, 1 Jun 2020, In: International journal of solids and structures. 193-194, p. 200-212, 13 p.Electronic (full-text) versionResearch output: Contribution to journal > Research article
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