Josef Eberhardsteiner

Technische Universität Wien

H-index: 36

Europe-Austria

About Josef Eberhardsteiner

Josef Eberhardsteiner, With an exceptional h-index of 36 and a recent h-index of 22 (since 2020), a distinguished researcher at Technische Universität Wien, specializes in the field of material characterisation and material modeling.

His recent articles reflect a diverse array of research interests and contributions to the field:

An explicit updated Lagrangian fragile points method for dynamic fracture simulations

Advanced Concepts for Modelling Failure and Transport Processes in Wood and Wood-Based Products

Methodology of Study of the Structure of Cement Materials by the Method of Nanoindentation

Numerical modeling in timber engineering–moisture transport and quasi-brittle failure

Three-Minutes Creep Tests and Ultrasonic Experiments of Cementitious Materials at Early and Mature Ages

Vorwort des Vorsitzenden und des stellvertretenden Vorsitzenden der Wissenschaftskommission beim BMLV

Die Wissenschaftskommission beim BMLV, Funktionsperiode 2017-2022, Verteidigungsforschung-Verteidigung forschen, Sinne, Intelligenz und Technologie im 21. Jahrhundert

Computer-based modeling of moisture transport in wood-based materials

Josef Eberhardsteiner Information

University	Technische Universität Wien
Position	Professor Institute for Mechanics of Materials and Structures
Citations(all)	4484
Citations(since 2020)	1597
Cited By	3806
hIndex(all)	36
hIndex(since 2020)	22
i10Index(all)	94
i10Index(since 2020)	49
Email	Access Email
University Profile Page	Technische Universität Wien
Google Scholar	View Google Scholar Profile

Josef Eberhardsteiner Skills & Research Interests

material characterisation and material modeling

Top articles of Josef Eberhardsteiner

Title	Journal	Author(s)	Publication Date
An explicit updated Lagrangian fragile points method for dynamic fracture simulations	Engineering Fracture Mechanics	Mingjing Li Baoying Shen Song Wang Xueyan Dai Leiting Dong ...	2024/1/23
Advanced Concepts for Modelling Failure and Transport Processes in Wood and Wood-Based Products		Josef Füssl Markus Lukacevic Florian Brandstätter Christoffer Vida Sebastian Pech ...	2023/9/6
Methodology of Study of the Structure of Cement Materials by the Method of Nanoindentation		EN Polonina SN Leonovich O Lahayne J Eberhardsteiner VV Potapov ...	2023
Numerical modeling in timber engineering–moisture transport and quasi-brittle failure	Rad Hrvatske akademije znanosti i umjetnosti. Tehničke znanosti	Josef Eberhardsteiner Sebastian Pech Maximilian Autengruber Christoffer Vida Markus Lukacevic ...	2023/9/7
Three-Minutes Creep Tests and Ultrasonic Experiments of Cementitious Materials at Early and Mature Ages		Bernhard Pichler Josef Eberhardsteiner Christian Hellmich	2022
Vorwort des Vorsitzenden und des stellvertretenden Vorsitzenden der Wissenschaftskommission beim BMLV		Josef Eberhardsteiner Robert Brieger	2022
Die Wissenschaftskommission beim BMLV, Funktionsperiode 2017-2022, Verteidigungsforschung-Verteidigung forschen, Sinne, Intelligenz und Technologie im 21. Jahrhundert		Josef Eberhardsteiner	2022
Computer-based modeling of moisture transport in wood-based materials	BAUTECHNIK	Maximilian Autengruber Markus Lukacevic Josef Eberhardsteiner Josef Fussl	2022/10/1
Influence of nanoadditives on the Young’s modulus of cement	Materials Today: Proceedings	Olaf Lahayne Luis Zelaya-Lainez Thomas Buchner Josef Eberhardsteiner Josef Füssl	2022/1/1
Computergestützte Modellierung von Feuchtetransportprozessen in Holzwerkstoffen.	Bautechnik	Maximilian Autengruber Markus Lukacevic Josef Eberhardsteiner Josef Füssl	2022
Modeling approach to estimate the bending strength and failure mechanisms of glued laminated timber beams	Engineering Structures	Christoffer Vida Markus Lukacevic Josef Eberhardsteiner Josef Füssl	2022/3/15
Structural Mechanics of Reinforced Concrete Hinges: From Laboratory Testing to Design Recommendations		Bernhard Pichler	2021
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	Markus Lukacevic Maximilian Autengruber Thomas Raimer Josef Eberhardsteiner Josef Füssl	2021/10/1
Computational mechanics concepts for wood-based products and timber structural elements		Markus Lukacevic Josef Füssl Sebastian Pech Christoffer Vida Josef Eberhardsteiner	2021
Nanoindentation method for studying the structure of modified cement stone	Journal of Engineering Physics and Thermophysics	EN Polonina O Lahayne J Eberhardsteiner VV Potapov SA Zhdanok ...	2021/9
Reinforced Concrete Hinges: Laboratory Testing, Finite Element Analysis, Design Recommendations (Rudolf Beer Lecture)		Josef Eberhardsteiner	2021
Influence of Nano-Additives on the Elasticity of Cement		Olaf Lahayne Luis Zelaya-Lainez Thomas Buchner Josef Eberhardsteiner	2021
Concrete Hinges: Laboratory Testing, Finite Element Analysis, Design Recommendations		Thomas Schlappal Johannes Kalliauer Michael Schweigler S Gmainer Markus Vill ...	2021
Numerical assessment of wood moisture content-based assignments to service classes in EC 5 and a prediction concept for moisture-induced stresses solely using relative humidity …	Engineering Structures	Maximilian Autengruber Markus Lukacevic Christof Gröstlinger Josef Eberhardsteiner Josef Füssl	2021/10/15
Ultimate limits of reinforced concrete hinges	Engineering Structures	Thomas Schlappal Johannes Kalliauer Markus Vill Herbert A Mang Josef Eberhardsteiner ...	2020/12/1