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Wood Material Science & Engineering Volume 14, 2019 - Issue 1: Final conference COST FP1303 “performance of bio-based building materials"
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Original Articles

Performance of wood in the Franja partisan hospital

Davor KržišnikDepartment of Wood Science and Technology, University of Ljubljana, Ljubljana, SloveniaView further author information
,
Christian BrischkeDepartment Wood Biology and Wood Products, University of Goettingen, Goettingen, GermanyView further author information
,
Boštjan LesarDepartment of Wood Science and Technology, University of Ljubljana, Ljubljana, SloveniaView further author information
,
Nejc ThalerDepartment of Wood Science and Technology, University of Ljubljana, Ljubljana, SloveniaView further author information
&
Miha HumarDepartment of Wood Science and Technology, University of Ljubljana, Ljubljana, SloveniaCorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0001-9963-5011View further author information
ORCID Icon
Pages 24-32 | Received 08 Nov 2017, Accepted 05 Feb 2018, Published online: 13 Feb 2018

References

  • Ammer, U. (1963) Untersuchungen über das Wachstum von Rotstreifepilzen in Abhängigkeit von der Holzfeuchtigkeit. Forstwissenschaftliches Centralblatt, 82(11), 360–391. doi: 10.1007/BF02202726
  • Bavendamm, W. and Reichelt, H. (1938) Die Abhängigkeit des Wachstums holzzersetzender Pilze vom Wassergehalt des Nährsubstrates. Archives of Microbiology, 9(1), 486–544.
  • Brischke, C. and Rapp, A. O. (2008) Dose–response relationships between wood moisture content, wood temperature and fungal decay determined for 23 European field test sites. Wood Science and Technology, 42, 507–518. doi: 10.1007/s00226-008-0191-8
  • Brischke, C., Rapp, A. O., Bayerbach, R., Morsing, N., Fynholm, P. and Welzbacher, C. R. (2008) Monitoring the “material climate” of wood to predict the potential for decay: Results from in-situ measurements on buildings. Building and Environment, 43, 1575–1582. doi: 10.1016/j.buildenv.2007.10.001
  • Brischke, C. and Thelandersson, S. (2014) Modelling the outdoor performance of wood products – A review on existing approaches. Construction and Building Materials, 66, 384–397. doi: 10.1016/j.conbuildmat.2014.05.087
  • Brischke, C. and Meyer-Veltrup, L. (2016) Modelling timber decay caused by brown rot fungi. Materials and Structures, 49(8), 3281–3291. doi: 10.1617/s11527-015-0719-y
  • Brischke, C., Meyer-Veltrup, L. and Soetbeer, A. (2017) Moisture requirements of wood decay fungi – Review on methods, thresholds, and experimental limitations. Holztechnologie. Accepted for publication.
  • Du, X., Bokel, R. and van den Dobbelsteen, A. (2014) Building microclimate and summer thermal comfort in free-running buildings with diverse spaces: A Chinese vernacular house case. Building and Environment, 82(8), 215–227. doi: 10.1016/j.buildenv.2014.08.022
  • EN 252. (2015) Field Test Method for Determining the Relative Protective Effectiveness of a Wood Preservative in Ground Contact (Brussels, Belgium: European Committee for Standardization).
  • EN 335. (2013) Durability of Wood and Wood-Based Products – Use Classes: Definitions, Application to Solid Wood and Wood Based Panels (Brussels, Belgium: European Committee for Standardization).
  • EN 351-1. (2007) Durability of Wood and Wood-Based Products - Preservative-Treated Solid Wood - Part 1: Classification of Preservative Penetration and Retention (Brussels, Belgium: European Committee for Standardization).
  • Gobakken, L.R., Mattson, J. and Alfredsen, G. (2008) In-service performance of wood depends upon the critical in-situ conditions. IRG/WP 08-20382. Proceedings of the 44th scientific conference of the International Research Group on Wood Protection, Stockholm.
  • Höpken, M. (2015). Investigations on the growth and moisture transport of indoor wood decay fungi in piled wood specimens (In German). Master thesis. University Hamburg, Department Biology, Germany.
  • Huckfeldt, T. (2003) Ökologie und Cytologie des Echten Hausschwammes (Serpula lacrymans) und anderer Hausfäulepilze (Hamburg: Department Biology, University Hamburg).
  • Humar, M., Petrič, M., Pohleven, F., Šentjurc, M. and Kalan, P. (2002) Changes in EPR spectra of wood impregnated with copper-based preservatives during exposure to several wood-rotting fungi. Holzforschung, 56(3), 229–238. doi: 10.1515/HF.2002.038
  • Humar, M., Lesar, B., Thaler, N., Kržišnik, D. and Žlahtič, M. (2016) Influence of the retention and penetration of Cu based preservatives on the performance of softwoods in ground. In T. De Troya (ed.) Designing with bio-Based Building Materials – Challenges and Opportunities: Book of Abstract from Joint Technical Workshop: Madrid, Spain, 24–25 February 2016 (Madrid: National institute for agricultural and food research and technology: Eduardo Torroja institute for construction sciences), pp. 61–62.
  • Isaksson, T., Brischke, C. and Thelandersson, S. (2013) Development of decay performance models for outdoor timber structures. Materials and Structures, 46, 1209–1225. doi: 10.1617/s11527-012-9965-4
  • Isaksson, T. and Thelandersson, S. (2013) Experimental investigation on the effect of detail design on wood moisture content in outdoor above ground applications. Building and Environment, 59, 239–249. doi: 10.1016/j.buildenv.2012.08.023
  • Jann, H. (1990) Pilze an Bäumen. Saprophyten und Parasiten, die an Holz wachsen. (Berlin: Patzer Verlag). 272 p.
  • Kutnik, M., Suttie, E. and Brischke, C. (2014) European standards on durability and performance of wood and wood-based products – Trends and challenges. Wood Material Science and Engineering, 9, 122–133. doi: 10.1080/17480272.2014.894574
  • Meyer, L. and Brischke, C. (2015) Fungal decay at different moisture levels of selected European-grown wood species. International Biodeterioration & Biodegradation, 103, 23–29. doi: 10.1016/j.ibiod.2015.04.009
  • Meyer, L., Brischke, C., Treu, A., and Larsson-Brelid, P. (2016) Critical moisture conditions for fungal decay of modified wood by basidiomycetes as detected by pile tests. Holzforschung, 70(4), 331–339. doi: 10.1515/hf-2015-0046
  • Meyer-Veltrup, L., Brischke, C., Alfredsen, G., Humar, M., Flæte, P.O., Isaksson, T., Larsson Brelid, P, Westin, M. and Jermer, J. (2017) The combined effect of wetting ability and durability on outdoor performance of wood: development and verification of a new prediction approach. Wood Science and Technology, 51(3), 615–637. doi: 10.1007/s00226-017-0893-x
  • Otten, K. A., Brischke, C. and Meyer, C. (2017) Material moisture content of wood and cement mortars – Electrical resistance-based measurements in the high ohmic range. Construction and Building Materials, 153, 640–646. doi: 10.1016/j.conbuildmat.2017.07.090
  • Popper, R. and Niemz, P. (2009) Wasserdampfsorptionsverhalten ausgewählter heimischer und überseeischer Holzarten. Bauphysik, 31(2), 117–121. doi: 10.1002/bapi.200910017
  • Schmidt, O. and Moreth U. (1996) Biological characterisation of Poria indoor brown-rot fungi. Holzforschung, 50, 105–110. doi: 10.1515/hfsg.1996.50.2.105
  • Schmidt, O. (2006) Wood and Tree Fungi. Biology, Damage, Protection and Use (Berlin: Springer).
  • Stienen, T., Schmidt, O. and Huckfeldt, T. (2014) Wood decay by indoor basidiomycetes at different moisture and temperature. Holzforschung, 68, 9–15. doi: 10.1515/hf-2013-0065
  • Van Acker, J., De Windt, I., Li, W. and Van den Bulcke, J. (2014) Critical parameters on moisture dynamics in relation to time of wetness as factor in service life prediction. IRG/WP 14-20555. Proceedings of the 44th scientific conference of the International Research Group on Wood Protection, Stockholm.
  • Van den Bulcke, J., De Windt, I., Defoirdt, N., De Smet, J. and Van Acker, J. (2011) Moisture dynamics and fungal susceptibility of plywood. International Biodeterioration & Biodegradation, 65(5), 708–716. doi: 10.1016/j.ibiod.2010.12.015
  • Viitanen, H., Vinha, J., Salminen, K., Ojanen, T., Peuhkuri, R., Paajanen, L. and Lähdesmäki, K. (2010a) Moisture and Bio-deterioration risk of building materials and structures. Journal of Building Physics, 33, 201–224. doi: 10.1177/1744259109343511
  • Viitanen, H., Toratti, T., Makkonen, L., Peuhkuri, R., Ojanen, T., Ruokolainen, L. and Räisänen, J. (2010b) Towards modelling of decay risk of wooden materials. European Journal of Wood and Wood Products, 68(3), 303–313. doi: 10.1007/s00107-010-0450-x
  • Welzbacher, C., Brischke, C., Rapp, A.O., Koch, S. and Hofer, S. (2009) Performance of thermally modified timber (TMT) in outdoor application – durability, abrasion and optical appearance. Wood Industry, 60(2), 75–82.
  • Žlahtič Zupanc, M., Lesar, B., Thaler, N. and Humar, M. (2017) Influence of weathering on moisture performance of wood. IRG 17-20619. Proceedings of the 44th scientific conference of the International Research Group on Wood Protection, Stockholm.

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