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1. BESTÄNDIGHETSPROVNINGAR AV TRÄMATERIAL MED KOPPLING TILL BJÖRNLANDETS NATIONALPARK

Author

Jermer, Jöran, Bardage, Stig, Larsson Brelid, Pia, and Staafjord, Tomas

Subjects
charring, service trial, laboratory testing, Björnlandet National Park, Naturvetenskap, wood tar, local wood materials, Natural Sciences, field testing
Abstract

Durability tests of wood materials related to constructions in Björnlandet National Park The aim of the present study, primarily initiated by the Swedish Environmental Agency, is to study the durability of different wood materials related to and used in constructions in Björnlandet National Park in northern Sweden (63°97´N, 18°05´E), completed during 2014 and 2015. Of particular interest is to determine the durability properties in a scientific way of local materials used, such as mountain-grown Norway spruce and locally grown Scots pine and larch. The effect on the performance of charring and superficial wood-tar treatment is also studied. The study consists of a laboratory test according to ENV 807, a field trial according to EN 252 and a service trial on-site in the national park, including constructions such as load-bearing piles, ramps, foot-bridges and platforms. Results from the tests according to ENV 807 and EN 252 as well as the initial inspection of the constructions and components of different materials are presented in this report. During the initial inspection of the constructions on site, then in use for 1-2 years, no decay was found besides a small initial attack on one single pile of larch. The accelerated tests in laboratory and field have provided interesting information on the durability properties of the different materials and the ranking between them from a durability point of view which can be concluded as follows: • The local materials show moderate durability with marginal differences between the materials, with the exception of the spruce materials which show lower durability, comparable to the durability of pine sapwood. • Heartwood of locally grown pine and larch show basically equal durability properties. • Slow-grown wood will not enhance the durability properties. • Superficial treatment with wood-tar contributes so far to a somewhat increased durability. However, the primary positive effect is most certainly owing to the smell and appearance of wood treated with wood-tar, which in certain environments contributes to a positive perception. Charring does not add any value from a durability point of view. It is important that the results of the laboratory and field tests are interpreted with some care and common sense. The relatively extensive decay achieved with all materials but the preservative-treated wood does not necessarily mean that the constructions will be subject to early decay. With respect to the geographical location of Björnlandet National Park in the inland of northern Sweden, where the decay hazard in general is moderate, the local materials can thus be expected to have a reasonably long service. However, results from the tests indicate that efforts to select local materials/use "traditional" treatments most certainly will not result in longer service life than can be achieved with corresponding materials commercially available. Finally, it is pointed out that: • Avoiding moisture traps by correct design of components and constructions is vital for the service life when "traditional" local materials and treatments are used. • Preservative treatment will in general give critical wooden constructions a longer service life. The use of untreated wood involves more uncertainty with expected service life. Regular inspections and maintenance are therefore particularly important for constructions critical to personal safety (e.g. foot bridges, ramps) or infrastructure (e.g. bridges). • Urgent future objectives to complete are the inspections of the field trial until remaining stakes have been exposed for five years, and to follow up the service trial in Björnlandet National Park with inspections in 4-5 years, i.e. in 2022 or 2023 in order to confirm or reassess the preliminary conclusions.

Published
2018

2. Fältprovning av stängselstolpar : Lägesrapport nr 2

Author

Jermer, Jöran and Larsson Brelid, Pia

Subjects
charring, fence posts, Naturvetenskap, finetextured wood, preservative-treated wood, Natural Sciences, field testing, tar oil
Abstract

This is the second progress report on two field trials with fence posts at SP’s test site in Borås, Sweden. The tests started in 1997 and 2006. The aim of the tests was to comparethe performance of posts of “traditional” materials, such as untreated, fine-textured(narrow growth rings) Norway spruce (Picea abies) and Scots pine (Pinus sylvestris) aswell as spruce posts with charred butt end or butt end immersed in a wood tar productwith preservative-treated posts, Nordic wood preservation class NTR A. Both trials were inspected in 2016 and the conclusions reported in the first progress reportwere further confirmed, namely Preservative-treated material, NTR class A, performs far better than untreated posts, irrespective of material, and posts of “traditional” material. Charred butt end has not improved the durability properties at all in this trial and was the same as for untreated material. The service life of the “traditional” materials was in general from a few years upto between 5 and 10 years. Favorable exposure conditions may give a somewhat longer service life. “Traditional” materials cannot be regarded as realistic alternatives topreservative-treated posts, NTR A class A, even with very low expectations onservice life and cost-effectiveness.

Published
2016

4. Critical moisture conditions for fungal decay of modified wood by basidiomycetes as detected by pile tests

Author

Meyer, Linda, Brischke, Christian, Treu, Andreas, Larsson-Brelid, Pia, Meyer, Linda, Brischke, Christian, Treu, Andreas, and Larsson-Brelid, Pia

Abstract

The aim of cell wall modification is to keep wood moisture content (MC) below favorable conditions for decay organisms. However, thermally modified, furfurylated, and acetylated woods partly show higher MCs than untreated wood in outdoor exposure. The open question is to which extent decay is influenced by the presence of liquid water in cell lumens. The present paper contributes to this topic and reports on physiological threshold values for wood decay fungi with respect to modified wood. In total, 4200 specimens made from acetylated, furfurylated, and thermally modified beech wood (Fagus sylvatica L.) and Scots pine sapwood (sW) (Pinus sylvestris L.) were exposed to Coniophora puteana and Trametes versicolor. Piles consisting of 50 small specimens were incubated above malt agar in Erlenmeyer flasks for 16 weeks. In general, pile upward mass loss (ML) and MC decreased. Threshold values for fungal growth and decay (ML≥2%) were determined. In summary, the minimum MC for fungal decay was slightly below fiber saturation point of the majority of the untreated and differently modified materials. Surprisingly, T. versicolor was able to degrade untreated beech wood at a minimum of 15% MC, and growth was possible at 13% MC. By contrast, untreated pine sW was not decayed by C. puteana at less than 29% MC. © 2016 by De Gruyter 2016.

Published
2016

7. Natural durability of timber exposed above ground - A survey [Prirodna trajnost drva izlozenoga iznad zemlje - Pregled istrazivanja]

Author

Brischke, Christian, Meyer, Linda, Alfredsen, Gry, Humar, Miha, Francis, Lesley, Flæte, Per-Otto, and Larsson-Brelid, Pia

Subjects
Use class 3, literature review, timber, Testing, Durability classes, Australia, Test methodology, data set, Resistance factor, Field tests, Resistance factors, Durability, Europe, Benchmarking, ddc:580, Dewey Decimal Classification::500 | Naturwissenschaften::580 | Pflanzen (Botanik), climate conditions, Field test, aboveground biomass, Service life prediction
Abstract

Besides its inherent resistance against degrading organisms, the durability of timber is infl uenced by design details and climatic conditions, making it difficult to treat wood durability as an absolute value. Durability classification is, therefore, based on comparing performance indicators between the timber in question and a reference timber. These relative values are grouped and related to durability classes, which can refer to a high range of service-lives. The insufficient comparability of such durability records has turned out to be a key challenge for service-life prediction. This paper reviewed literature data, based on service-life measures, not masked by a durability classification. It focused on natural durability of timber tested in the field above-ground. Additionally, results from ongoing aboveground durability studies in Europe and Australia are presented and have been used for further analysis. In total, 163 durability recordings from 31 different test sites worldwide based on ten different test methods have been considered for calculation of resistance factors. The datasets were heterogeneous in quality and quantity; the resulting resistance factors suffered from high variation. In conclusion, an open platform for scientific exchange is needed to increase the amount of available service-life related data.

Published
2013

12. Wettability of acetylated Southern yellow pine

Author

Wålinder, Magnus, Larsson Brelid, Pia, Segerholm, Kristoffer, II Long, C., Dickerson, J.P., Wålinder, Magnus, Larsson Brelid, Pia, Segerholm, Kristoffer, II Long, C., and Dickerson, J.P.

Abstract

The aim of this work was to achieve a better understanding of the wettability, i.e. liquids wetting and sorption characteristics (or penetrability), of acetylated Southern yellow pine (SYP) including probable differences in such characteristics between early- or latewood. Matched samples of acetylated and untreated SYP boards were prepared. The wettability of the samples were measured by the Wilhelmy technique using standard probe liquids as well as two different sample coatings, a cationic knot sealer and an acrylic based dye. The results showed that latewood regions of the acetylated wood had a noticeably lower uptake of the non-polar low surface tension liquid octane as well as the polar high surface tension liquid water compared with latewood of the untreated controls. Contact angle analysis based on the Lewis acid-base concept indicated that the acetylated wood is predominantly Lewis basic. A preferential wetting of the knot sealer was observed on the acetylated wood., QC 20140128

Published
2013
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13. Natural Durability of Timber Exposed Above Ground–a Survey

Author

Brischke, Christian, Meyer, Linda, Alfredsen, Gry, Humar, Miha, Francis, Lesley P., Flæte, Per-Otto, Larsson-Brelid, Pia, Brischke, Christian, Meyer, Linda, Alfredsen, Gry, Humar, Miha, Francis, Lesley P., Flæte, Per-Otto, and Larsson-Brelid, Pia

Abstract

Besides its inherent resistance against degrading organisms, the durability of timber is infl uenced by design details and climatic conditions, making it diffi cult to treat wood durability as an absolute value. Durability classifi cation is, therefore, based on comparing performance indicators between the timber in question and a reference timber. These relative values are grouped and related to durability classes, which can refer to a high range of service-lives. The insuffi cient comparability of such durability records has turned out to be a key challenge for service-life prediction. This paper reviewed literature data, based on service-life measures, not masked by a durability classifi cation. It focused on natural durability of timber tested in the fi eld above-ground. Additionally, results from ongoing aboveground durability studies in Europe and Australia are presented and have been used for further analysis. In total, 163 durability recordings from 31 different test sites worldwide based on ten different test methods have been considered for calculation of resistance factors. The datasets were heterogeneous in quality and quantity; the resulting resistance factors suffered from high variation. In conclusion, an open platform for scientifi c exchange is needed to increase the amount of available service-life related data.

Published
2013

16. Wood Plastic Composites from Modified Wood and CAP

Author

Segerholm, Kristoffer, Westin, Mats, Larsson Brelid, Pia, Wålinder, Magnus, Segerholm, Kristoffer, Westin, Mats, Larsson Brelid, Pia, and Wålinder, Magnus

Abstract

QC 20120213

Published
2009

17. Wood Plastic Composites from Modified Wood : Part 3. Durability of WPCs with bioderived matrix

Author

Westin, Mats, Larsson Brelid, Pia, Segerholm, Kristoffer, Van den Oever, M., Westin, Mats, Larsson Brelid, Pia, Segerholm, Kristoffer, and Van den Oever, M.

Abstract

The decay resistance of fully bio-derived wood plastic composites, WPCs, was tested in bothlaboratory and field tests. The laboratory tests were performed according to modified versionsof AWPA E10 (soil-block test) and ENV 807 (tests in three un-sterile soils) and the field testsaccording to EN 252 (stakes in ground) and EN 275 (resistance to marine borers). The WPCmaterials for laboratory tests were injection molded test specimens with 50% modified woodparticles and 50% cellulose ester (CAP) or poly-lactic acid (PLA) content. The field testspecimens were taken from larger extruded decking board profiles with 60% wood contentand 40% CAP. 60/40-mix (wt/wt) for CAP corresponds to the same volumetric compositionas 70/30-mix (wt/wt) with polypropylene as matrix that was presented in Part 1 and 2.In all laboratory tests the control WPCs performed much better than the pine sapwood controlblocks. The WPCs from modified wood performed better than the control WPC and WPCsfrom acetylated wood performed best with no detectable decay whatsoever.In the field stake test, the WPC from unmodified wood were slightly decayed whereas theWPCs from modified wood were sound. In the marine field test the WPC from unmodifiedwood were severely attacked by shipworm (Teredo navalis), whereas the WPCs frommodified wood were sound., QC 20120514

Published
2008

19. Micromorphology, moisture sorption and mechanical properties of a biocomposite based on acetylated wood particles and cellulose ester

Author

Segerholm, Kristoffer, Walkenström, Pernilla, Nyström, B., Wålinder, Magnus, Larsson Brelid, Pia, Segerholm, Kristoffer, Walkenström, Pernilla, Nyström, B., Wålinder, Magnus, and Larsson Brelid, Pia

Abstract

One of the major issues in a long-term perspective for the use of wood-plastic composites (WPCs) in outdoor applications is the moisture sensitivity of the wood component and the consequent dimensional instability and susceptibility to biological degradation of the composite. In this work, the effects of using an acetylated wood component and a cellulose ester as matrix on the micromorphology, mechanical performance and moisture uptake of injection-moulded WPCs have been studied. Composites based on unmodified and acetylated wood particles, specially designed with a length-to-width ratio of about 5-7, combined with both cellulose acetate propionate (CAP) and polypropylene (PP) matrices were studied. The size and shape of the wood particles were studied before and after the processing using light microscopy, and the micromorphology of the composites was studied using a newly developed surface preparation technique based on ultraviolet laser irradiation combined with low-vacuum scanning electron microscopy (LV-SEM). The water vapour sorption in the composites and the effect of accelerated weathering were measured using thin samples which were allowed to reach equilibrium moisture content (EMC). The length-to-diameter ratio was only slightly decreased for the acetylated particles after compounding and injection moulding, although both the unmodified and the acetylated particles were smaller in size after the processing steps. The tensile strength was about 40% higher for the composite based on acetylated wood than for the composite with unmodified wood using either CAP or PP as matrix, whereas the notched impact strength of the composite based on acetylated wood was about 20% lower than those of the corresponding unmodified composites. The sorption experiments showed that the EMC was 50% lower in the composites with an acetylated wood component than in the composites with an unmodified wood component. The choice of matrix material strongly affected the moisture absorpt, Uppdaterad från submitted till published(20101116) QC 20150716

Published
2007
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