‪Max Rosenkranz‬ - ‪Google Scholar‬

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Co-authors

Karl A. KalinaInstitute of Solid Mechanics, TU DresdenVerified email at tu-dresden.de
Markus KästnerInstitute of Solid Mechanics, TU DresdenVerified email at tu-dresden.de
WaiChing SunAssociate Professor of Civil Engineering and Engineering Mechanics, Columbia UniversityVerified email at columbia.edu

Max Rosenkranz

Max Rosenkranz

Verified email at tu-dresden.de

Computational Solid Mechanics Constitutive Modeling Artificial Neural Networks


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A comparative study on different neural network architectures to model inelasticity M Rosenkranz, KA Kalina, J Brummund, M Kästner International Journal for Numerical Methods in Engineering 124 (21), 4802-4840, 2023	17	2023
Viscoelasticty with physics-augmented neural networks: Model formulation and training methods without prescribed internal variables M Rosenkranz, KA Kalina, J Brummund, WC Sun, M Kästner Computational Mechanics, 1-23, 2024	3	2024
4.20 Physics-augmented neural networks for constitutive modeling of elasticity and viscoelasticity KA Kalina, M Rosenkranz, J Brummund, W Sun, M Kästner 11th GAMM AG Data Workshop TU Dresden February 06/07, 2024, 28, 2024		2024

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Articles 1–3