Water Uptake of Thermally Modified Norway Spruce

Zlahtic, Mojca; Thaler, Nejc; Humar, Miha

doi:10.5552/drind.2015.1421

Drvna industrija, Vol. 66 No. 4, 2015.

Izvorni znanstveni članak

https://doi.org/10.5552/drind.2015.1421

Water Uptake of Thermally Modified Norway Spruce

Mojca Zlahtic ; Odjel za znanost o drvu i drvnu tehnologiju, Biotehnički fakultet, Sveučilište u Ljubljani, Ljubljana, Slovenija
Nejc Thaler ; Odjel za znanost o drvu i drvnu tehnologiju, Biotehnički fakultet, Sveučilište u Ljubljani, Ljubljana, Slovenija
Miha Humar orcid.org/0000-0001-9963-5011 ; Odjel za znanost o drvu i drvnu tehnologiju, Biotehnički fakultet, Sveučilište u Ljubljani, Ljubljana, Slovenija

Puni tekst: engleski pdf 1.424 Kb

str. 273-279

preuzimanja: 899

citiraj

APA 6th Edition

Zlahtic, M., Thaler, N. i Humar, M. (2015). Water Uptake of Thermally Modified Norway Spruce. Drvna industrija, 66 (4), 273-279. https://doi.org/10.5552/drind.2015.1421

MLA 8th Edition

Zlahtic, Mojca, et al. "Water Uptake of Thermally Modified Norway Spruce." Drvna industrija, vol. 66, br. 4, 2015, str. 273-279. https://doi.org/10.5552/drind.2015.1421. Citirano 19.04.2024.

Chicago 17th Edition

Zlahtic, Mojca, Nejc Thaler i Miha Humar. "Water Uptake of Thermally Modified Norway Spruce." Drvna industrija 66, br. 4 (2015): 273-279. https://doi.org/10.5552/drind.2015.1421

Harvard

Zlahtic, M., Thaler, N., i Humar, M. (2015). 'Water Uptake of Thermally Modified Norway Spruce', Drvna industrija, 66(4), str. 273-279. https://doi.org/10.5552/drind.2015.1421

Vancouver

Zlahtic M, Thaler N, Humar M. Water Uptake of Thermally Modified Norway Spruce. Drvna industrija [Internet]. 2015 [pristupljeno 19.04.2024.];66(4):273-279. https://doi.org/10.5552/drind.2015.1421

IEEE

M. Zlahtic, N. Thaler i M. Humar, "Water Uptake of Thermally Modified Norway Spruce", Drvna industrija, vol.66, br. 4, str. 273-279, 2015. [Online]. https://doi.org/10.5552/drind.2015.1421

Sažetak

Thermal modification of wood has been commercially available for almost twenty years but the complete mechanism of improved durability is still not completely understood. It is known that the temperature and duration of the modification influences the properties of the final products. There are several potential reasons for the increased durability of the modified wood. In recent research in particular, water exclusion efficiency has been identified as one of the key mechanisms. In order to elucidate this presumption, specimens made of Norway spruce heartwood were thermally modified at 6 different temperatures (160 °C, 180 °C, 190 °C, 200 °C, 210 °C and 230 °C) for three hours according to the Silvapro® procedure. Control specimens were left unmodified. Three sets of tests were performed: (a) samples were soaked in water for 4 days and then positioned on load cells and allowed to dry until a constant mass was achieved; (b) short term water uptake was determined with a tensiometer and (c) wood-water interactions were verified using constant gravimetric moisture measurement during outdoor exposure. As expected, the degree of modification was reflected in the moisture content of the wood during testing. Short and medium term water uptakes correlated quite well with the performance of wood in outdoor applications. On the other hand, long term tensiometer measurements were not in line with either short term water uptake or outdoor measurements.

Ključne riječi

load cell; Picea abies; tensiometer; thermal modification; water uptake; field testing

Hrčak ID:

150796

URI

https://hrcak.srce.hr/150796

Datum izdavanja:

7.1.2016.

Podaci na drugim jezicima: hrvatski

Posjeta: 1.952 *

Prijava i registracija

Drvna industrija, Vol. 66 No. 4, 2015.

Sažetak

Ključne riječi

Hrčak ID:

URI

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