print

Numerical simulation of CLT moisture uptake and dry-out following water infiltration through end-grain surfaces

author
Brandstätter, Florian
Kalbe, Kristo
Autengruber, Maximilian
Lukacevic, Markus
Kalamees, Targo
Ruus, Aime
Annuk, Alvar
Füssl, Josef
statement of authorship
Florian Brandstätter, Kristo Kalbe, Maximilian Autengruber, Markus Lukacevic, Targo Kalamees, Aime Ruus, Alvar Annuk, Josef Füssl
source
Journal of Building Engineering
publisher
Elsevier Ltd.
journal volume number month
vol. 80
year of publication
2023
pages
art. 108097
url
https://doi.org/10.1016/j.jobe.2023.108097
subject term
liimpuit
niiskuskindlus
puitehitised
termodünaamika
töökindlus
keyword
CLT
coupled moisture transport
dry-out
free water
heat mass transfer
moisture uptake
wood
ISSN
2352-7102
notes
Bibliogr.: 57 ref
Open Access
Open Access
scientific publication
teaduspublikatsioon
classifier
1.1
Scopus
Journal metrics at Scopus
Article at Scopus
WOS
Journal metrics at WOS
Article at WOS
category (general)
Engineering
category (sub)
Engineering. Architecture
Engineering. Building and construction
Engineering. Safety, risk, reliability and quality
Engineering. Civil and structural engineering
Engineering. Mechanics of materials
kvartiil
Q1
TTÜ department
Tartu kolledž
language
inglise
Brandstätter, F., Kalbe, K., Autengruber, M., Lukacevic, M., Kalamees, T., Ruus, A., Annuk, A., Füssl, J. Numerical simulation of CLT moisture uptake and dry-out following water infiltration through end-grain surfaces // Journal of Building Engineering (2023) vol. 80, art. 108097. https://doi.org/10.1016/j.jobe.2023.108097