Publications - WP3 – FE modelling

Date title
2022 Pech S, Lukacevic M, Füssl J. Validation of a hybrid multi-phase field model for fracture of wood. Engineering Fracture Mechanics, 2022.
2022 Pech S, Lukacevic M, Füssl J. A hybrid multi-phase field model to describe cohesive failure in orthotropic materials, assessed by modeling failure mechanisms in wood. Engineering Fracture Mechanics, 2022.
2022 Autengruber M, Lukacevic M, Eberhardsteiner J, Füssl J. Computergestützte Modellierung von Feuchtetransportprozessen in Holzwerkstoffen. Bautechnik, 2022.
2021 Lukacevic M, Füssl J, Pech S, Vida Ch, Eberhardsteiner J. Computational mechanics concepts for wood-based products and timber structural elements. WCTE 2020/21.
2021 Pech S, Lukacevic M, Füssl J. A robust multisurface return-mapping algorithm and its implementation in Abaqus. Finite Elements in Analysis and Design, 2021.
2021 Lukacevic M, Autengruber M, Raimer Th, Eberhardsteiner J, Füssl J. Effect of cast-in-place concrete application on moisture distribution in timber-concrete composite floors with notched connections, investigated via finite element simulations. Journal of Building Engineering, 2021.
2021 Autengruber M, Lukacevic M, Füssl J. Heat and mass transfer model for wood including free water transport. WCTE 2020/21.

 

Master’s and PhD theses related to WP3

Date title
2022 Sebastian Pech. Numerical models to describe fracture and plasticity in wood and their application to optimize laminated timber products, TU Wien, 2022.
2021 Maximilian Autengruber: Numerical Simulation Concepts for Moisture Transport in Wood and Wood-Based Products, Below and Above the Fiber Saturation Point, to Predict Moisture-Induced Failure Mechanisms, TU Wien, 2021.
2021 Maximilian Macho: Das mechanische Verhalten von Holz-Beton-Verbunddecken, untersucht mittels numerischer Simulationen, TU Wien, 2021.
2020 P. Hacker: 3D Finite Element Modeling of a Form Fitting Cross Laminated Timber Connection, TU Wien, 2020.
2021 T. Raimer: Der Einfluss des Aufbringens von Frischbeton auf die Feuchtigkeitsverteilung in Holz-Beton-Verbundkonstruktionen mit Kerven, untersucht mittels numerischer Simulationen, TU Wien, 2020.