REFERENCES
1 ISO Standard 20887:2020(E) 2 STA (Structural Timber Association), Moisture Management Strategy, 2022, V.1 3 American Society for Testing and Materials, Special Technical Publication, #779, 1982 4 STRAUBE, J., Moisture in buildings, ASHRAE Journal, no.44, 2002
5 WINTER, S., GAMPER, A., DIETSCH, P., and MERK, M., Building climate – long-term measurements to determine the effect on the moisture gradient in timber structures, Report to Forschunginitiative Zukunft Bau, Bundesamt für Bauwesen und Raumordnung (ref.no. : Z6-10.08.18.7-07.19/II2-F20-07-29), 2014 6 STA (Structural Timber Association), Technical Note 23 - Durability by design 7 KESIK, T., MARTIN, R. Mass Timber Building Science Primer. Mass Timber Institute, University of Toronto, 2021 8 WANG, J., Taller and Larger Wood Buildings: Potential Impacts of Wetting on Performance of Mass Timber Buildings, FPInnovation, 2015 9 RDH Building Science, Moisture risk management strategies for mass timber buildings, 2022, Version 2.1 10 STA (Structural Timber Association), Technical Note 24 – Moisture Protection during construction 11 SWEDISH WOOD, Moisture-proof CLT construction without a full temporary shelter, First edition, 2022 12 WANG, J., STIRLING, R., MORRIS, P., LLOYD, J., Durability of mass timber structures: a review of the biological risks, Wood and fiber science: journal of the Society of Wood Science and Technology, 08-2018 13 BMTRADA, Cross Laminated Timber and Moisture, Research Summary, 2022
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