Making wood predictable through computational methods

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Primary Data

Project Acronym Projekt Kurzbezeichnung
VirtualWoodLabs
 
Project Title (de) Projekttitel (de)
Making wood predictable through computational methods
 
Project Title (en) Projekttitel (en)
Making wood predictable through computational methods
 
Consortium Coordinator Koordinator des Konsortiums
 
Principal Investigator Projektleiter_in
 

Grants

Funder/Funding Agency Fördergeber
FWF - Österr. Wissenschaftsfonds
Grant number Förderkennnummer
Y 1093-N30
 

Publications

Results 1-11 of 11 (Search time: 0.006 seconds).

PreviewAuthor(s)TitleTypeIssue Date
1Schwaighofer-2024-Mechanics of Materials-vor.pdf.jpgSchwaighofer, Michael ; Königsberger, Markus ; Zelaya-Lainez, Luis ; Lukacevic, Markus ; Serna-Loaiza, Sebastián ; Harasek, Michael ; Zikeli, Florian ; Friedl, Anton ; Füssl, Josef The viscoelastic behavior of lignin: quantification through nanoindentation relaxation testing on hot-pressed technical lignin samples from various originsArticle Artikel Jan-2024
2Brandstaetter-2023-Journal of Building Engineering-vor.pdf.jpgBrandstätter, Florian ; Kalbe, Kristo ; Autengruber, Maximilian ; Lukacevic, Markus ; Kalamees, Targo ; Ruus, Aime ; Annuk, Alvar ; Füssl, Josef Numerical simulation of CLT moisture uptake and dry-out following water infiltration through end-grain surfacesArticle Artikel 1-Dec-2023
3Brandstaetter-2023-Wood Science and Technology-vor.pdf.jpgBrandstätter, Florian ; Autengruber, Maximilian ; Lukacevic, Markus ; Füssl, Josef Prediction of Moisture-Induced Cracks in Wooden Cross Sections Using Finite Element SimulationsArticle Artikel 3-May-2023
4Schwaighofer-2023-Materials Design-vor.pdf.jpgSchwaighofer, Michael ; Zelaya Lainez, Luis Haroldo ; Königsberger, Markus ; Lukacevic, Markus ; Serna Loaiza, Sebastian ; Harasek, Michael ; Lahayne, Olaf ; Senk, Valentin ; Füssl, Josef Characterization of Mechanical Properties of Five Hot-Pressed Lignins Extracted from Different Feedstocks by Microscopy-Aided NanoindentationArticle Artikel 1-Mar-2023
5Koenigsberger-2023-Materials and Structures-vor.pdf.jpgKönigsberger, Markus ; Lukacevic, Markus ; Füssl, Josef Multiscale micromechanics modeling of plant fibers: upscaling of stiffness and elastic limits from cellulose nanofibrils to technical fibersArticle Artikel Feb-2023
6Vida-2023-Materials Design-vor.pdf.jpgVida, Christoffer ; Lukacevic, Markus ; Hochreiner, Georg ; Füssl, Josef Size Effect on Bending Strength of Glued Laminated Timber Predicted by a Numerical Simulation Concept Including Discrete CrackingArticle Artikel Jan-2023
7Zelaya Lainez-2023-Materials Today Proceedings-vor.pdf.jpgZelaya Lainez, Luis Haroldo ; Balduzzi, Giuseppe ; Lahayne, Olaf ; Lukacevic, Markus ; Hellmich, Christian ; Füssl, Josef Micromechanics of non-embedded spruce wood: Novel polishing and indentation protocolArticle Artikel 2023
8Pech-2022-Engineering Fracture Mechanics-vor.pdf.jpgPech, Sebastian ; Lukacevic, Markus ; Füssl, Josef Validation of a hybrid multi-phase field model for fracture of woodArticle Artikel Nov-2022
9Pech-2022-Engineering Fracture Mechanics-vor.pdf.jpgPech, Sebastian ; Lukacevic, Markus ; Füssl, Josef A hybrid multi-phase field model to describe cohesive failure in orthotropic materials, assessed by modeling failure mechanisms in woodArticle Artikel Aug-2022
10Autengruber-2021-Heat and mass transfer model for wood including free wate...-am.pdf.jpgAutengruber, Maximilian ; Lukacevic, Markus ; Füssl, Josef Heat and mass transfer model for wood including free water transportInproceedings Konferenzbeitrag Aug-2021
11Lukacevic-2021-Computational mechanics concepts for wood-based products an...-am.pdf.jpgLukacevic, Markus ; Füssl, Josef ; Pech, Sebastian ; Vida, Christoffer ; Eberhardsteiner, Josef Computational mechanics concepts for wood-based products and timber structural elementsInproceedings Konferenzbeitrag Aug-2021