Short-term performance of wooden windows and facade elements made of thermally modified and non-modified Norway spruce in different natural environments

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Aleš Ugovšek
  • Barbara Šubic
  • Jernej Starman
  • Gregor Rep
  • Miha Humar
  • Boštjan Lesar
  • Nejc Thaler
  • Christian Brischke
  • Linda Meyer-Veltrup
  • Dennis Jones
  • Urban Häggström
  • Jose Ignacio Lozano

Externe Organisationen

  • Silvaprodukt
  • University of Ljubljana
  • Georg-August-Universität Göttingen
  • Lulea University of Technology
  • Tecnologías Avanzadas Inspiralia S.L.
  • M SORA TRGOVINA IN PROIZVODNJA D.D. (Slowenien)
  • DJ Timber Consultancy Limited
  • Research Institutes of Sweden (RISE)
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Details

OriginalspracheEnglisch
Seiten (von - bis)42-47
Seitenumfang6
FachzeitschriftWood Material Science and Engineering
Jahrgang14
Ausgabenummer1
PublikationsstatusVeröffentlicht - 9 Juli 2018

Abstract

Thermally modified wood is becoming an increasingly popular material for different applications in buildings. Laboratory tests indicated a positive effect of thermal modification on durability, dimensional stability and thermal conductivity of wood. Therefore, windows and facade elements made of thermally modified Norway spruce and non-modified Norway spruce were tested in the field and installed in different test objects which were exposed at five locations in Europe (Slovenia, Germany, Sweden, and Spain). Results from monitoring showed that elements and windows made of thermally modified spruce (TMS) had considerably lower wood moisture content compared to the ones made of non-modified spruce and that wax further positively influenced moisture performance. Colour changes of TMS were more intensive compared to non-modified spruce but were successfully retarded by adding pigments to the wax. Mould and stain growth was largely dependent on the location, amount of precipitation and relative humidity.

ASJC Scopus Sachgebiete

Zitieren

Short-term performance of wooden windows and facade elements made of thermally modified and non-modified Norway spruce in different natural environments. / Ugovšek, Aleš; Šubic, Barbara; Starman, Jernej et al.
in: Wood Material Science and Engineering, Jahrgang 14, Nr. 1, 09.07.2018, S. 42-47.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Ugovšek, A, Šubic, B, Starman, J, Rep, G, Humar, M, Lesar, B, Thaler, N, Brischke, C, Meyer-Veltrup, L, Jones, D, Häggström, U & Lozano, JI 2018, 'Short-term performance of wooden windows and facade elements made of thermally modified and non-modified Norway spruce in different natural environments', Wood Material Science and Engineering, Jg. 14, Nr. 1, S. 42-47. https://doi.org/10.1080/17480272.2018.1494627
Ugovšek, A., Šubic, B., Starman, J., Rep, G., Humar, M., Lesar, B., Thaler, N., Brischke, C., Meyer-Veltrup, L., Jones, D., Häggström, U., & Lozano, J. I. (2018). Short-term performance of wooden windows and facade elements made of thermally modified and non-modified Norway spruce in different natural environments. Wood Material Science and Engineering, 14(1), 42-47. https://doi.org/10.1080/17480272.2018.1494627
Ugovšek A, Šubic B, Starman J, Rep G, Humar M, Lesar B et al. Short-term performance of wooden windows and facade elements made of thermally modified and non-modified Norway spruce in different natural environments. Wood Material Science and Engineering. 2018 Jul 9;14(1):42-47. doi: 10.1080/17480272.2018.1494627
Ugovšek, Aleš ; Šubic, Barbara ; Starman, Jernej et al. / Short-term performance of wooden windows and facade elements made of thermally modified and non-modified Norway spruce in different natural environments. in: Wood Material Science and Engineering. 2018 ; Jahrgang 14, Nr. 1. S. 42-47.
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title = "Short-term performance of wooden windows and facade elements made of thermally modified and non-modified Norway spruce in different natural environments",
abstract = "Thermally modified wood is becoming an increasingly popular material for different applications in buildings. Laboratory tests indicated a positive effect of thermal modification on durability, dimensional stability and thermal conductivity of wood. Therefore, windows and facade elements made of thermally modified Norway spruce and non-modified Norway spruce were tested in the field and installed in different test objects which were exposed at five locations in Europe (Slovenia, Germany, Sweden, and Spain). Results from monitoring showed that elements and windows made of thermally modified spruce (TMS) had considerably lower wood moisture content compared to the ones made of non-modified spruce and that wax further positively influenced moisture performance. Colour changes of TMS were more intensive compared to non-modified spruce but were successfully retarded by adding pigments to the wax. Mould and stain growth was largely dependent on the location, amount of precipitation and relative humidity.",
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T1 - Short-term performance of wooden windows and facade elements made of thermally modified and non-modified Norway spruce in different natural environments

AU - Ugovšek, Aleš

AU - Šubic, Barbara

AU - Starman, Jernej

AU - Rep, Gregor

AU - Humar, Miha

AU - Lesar, Boštjan

AU - Thaler, Nejc

AU - Brischke, Christian

AU - Meyer-Veltrup, Linda

AU - Jones, Dennis

AU - Häggström, Urban

AU - Lozano, Jose Ignacio

N1 - Funding Information: The authors would like to acknowledge the support of European Commission in the frame of Horizon 2020, SME Instrument [project 666206 – WINTHERWAX].

PY - 2018/7/9

Y1 - 2018/7/9

N2 - Thermally modified wood is becoming an increasingly popular material for different applications in buildings. Laboratory tests indicated a positive effect of thermal modification on durability, dimensional stability and thermal conductivity of wood. Therefore, windows and facade elements made of thermally modified Norway spruce and non-modified Norway spruce were tested in the field and installed in different test objects which were exposed at five locations in Europe (Slovenia, Germany, Sweden, and Spain). Results from monitoring showed that elements and windows made of thermally modified spruce (TMS) had considerably lower wood moisture content compared to the ones made of non-modified spruce and that wax further positively influenced moisture performance. Colour changes of TMS were more intensive compared to non-modified spruce but were successfully retarded by adding pigments to the wax. Mould and stain growth was largely dependent on the location, amount of precipitation and relative humidity.

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