Follow
Sebastian Pech
Sebastian Pech
TU Wien (Vienna University of Technology)
Verified email at tuwien.ac.at
Title
Cited by
Cited by
Year
DrWatson: the perfect sidekick for your scientific inquiries
G Datseris, J Isensee, S Pech, T Gál
Journal of open source software 5 (54), 2673, 2020
292020
Metamodel assisted optimization of glued laminated timber beams by using metaheuristic algorithms
S Pech, G Kandler, M Lukacevic, J Füssl
Engineering Applications of Artificial Intelligence 79, 129-141, 2019
232019
A robust multisurface return-mapping algorithm and its implementation in Abaqus
S Pech, M Lukacevic, J Füssl
Finite Elements in Analysis and Design 190, 103531, 2021
202021
A hybrid multi-phase field model to describe cohesive failure in orthotropic materials, assessed by modeling failure mechanisms in wood
S Pech, M Lukacevic, J Fuessl
Engineering Fracture Mechanics 271, 108591, 2022
192022
Validation of a hybrid multi-phase field model for fracture of wood
S Pech, M Lukacevic, J Füssl
Engineering Fracture Mechanics 275, 108819, 2022
102022
A numerical unit cell model for predicting the failure stress state of vertically perforated clay block masonry under arbitrary in-plane loads
R Reismüller, M Lukacevic, S Pech, A Jäger, J Füssl
Engineering Structures 293, 116557, 2023
12023
Metamodel assisted optimisation of glued laminated timber systems by reordering laminations using metaheuristic algorithms
S Pech
Wien, 2017
12017
Calibrating failure surfaces for vertically perforated clay block masonry using a validated numerical unit cell model
R Reismüller, M Lukacevic, S Pech, A Jäger, J Füssl
European Journal of Mechanics-A/Solids, 105295, 2024
2024
Evaluation of moisture-induced stresses in wood cross-sections determined with a time-dependent, plastic material model during long-time exposure
S Pech, M Autengruber, M Lukacevic, R Lackner, J Füssl
2023
Numerical modeling in timber engineering–moisture transport and quasi-brittle failure
J Eberhardsteiner, S Pech, M Autengruber, C Vida, M Lukacevic, ...
Rad Hrvatske akademije znanosti i umjetnosti. Tehničke znanosti, 61-90, 2023
2023
Advanced Concepts for Modelling Failure and Transport Processes in Wood and Wood-Based Products
J Füssl, M Lukacevic, F Brandstätter, C Vida, S Pech, M Autengruber, ...
2023
Phase field method-based modeling of wood fracture
S Pech, M Lukacevic, J Füssl
# PLACEHOLDER_PARENT_METADATA_VALUE#, 572-572, 2023
2023
Simulation of Wood Fracture Mechanics Using the Phase Field Method for Fracture
S Pech, M Lukacevic, J Füssl
# PLACEHOLDER_PARENT_METADATA_VALUE#, 391-397, 2023
2023
Structural Performance Accessed by Computational Mechanics
M Lukacevic, M Autengruber, S Pech, F Brandstätter, J Füssl
2022
Numerical models to describe fracture and plasticity in wood and their application to optimize laminated timber products
S Pech
Technische Universität Wien, 2022
2022
Computergestützte Modellierung im Holzbau-Herausforderungen und Möglichkeiten
M Autengruber, M Lukacevic, C Vida, S Pech, J Füssl
25. Dresdner Baustatik-Seminar: Realität-Modellierung-Tragwerksplanung, 131-160, 2021
2021
Computational mechanics concepts for wood-based products and timber structural elements
M Lukacevic, J Füssl, S Pech, C Vida, J Eberhardsteiner
# PLACEHOLDER_PARENT_METADATA_VALUE#, 1-7, 2021
2021
Phase field method-based modeling of fracture in wood
S Pech, M Lukacevic, J Füssl
CompWood, 17-17, 2019
2019
A review of computational methods to describe the strength and failure behavior of wood and wood-based products and their embedment into a holistic design approach
J Füssl, M Lukacevic, M Li, S Pech, G Kandler, J Eberhardsteiner
CompWood, 55-55, 2019
2019
Simulation of failure mechanisms in wooden boards with knots as a basis for timber engineering design concepts
M Lukacevic, J Füssl, S Pech, J Eberhardsteiner
2019
The system can't perform the operation now. Try again later.
Articles 1–20