Degradation of thermo-hygro-mechanically (THM)-densified wood by soft-rot fungi

Skyba, Oleksandr; Niemz, Peter; Schwarze, Francis W. M. R.

doi:10.1515/hf.2008.029

Cited by 20 publications

(10 citation statements)

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“…In a previous study on the soft rot resistance of THMdensified wood, Skyba et al (2008) recorded a pronounced effect of THM treatment in the outer wood surface that suppressed colonisation and degradation of inner regions of the wood samples during incubation. The same phenomenon was observed in the present study in which hyphae were not detected in deeper regions of the wood and cell wall degradation was restricted to the outer surfaces of THM-densified wood.…”

Section: Discussionmentioning

confidence: 89%

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Resistance of thermo-hygro-mechanically (THM) densified wood to degradation by white rot fungi

Skyba¹,

Niemz

Schwarze

2009

HFSG

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Colonisation and degradation by the white rot fungi, Trametes versicolor and T. pubescens, were studied in wood of Norway spruce and beech subjected to three different treatments: (1) hygro-thermal treatment (1608C and 1808C), (2) mechanical densification, and (3) thermohygro-mechanical (THM) treatment including densification and post-treatment at different temperatures (1408C, 1608C and 1808C). The weight losses induced by the fungi were lowest in THM-densified woods. However, volume related numerical indicators for decay susceptibility did not show any significant improvements of THMdensified woods against both fungi. Analysis of the chemical composition of treated wood species revealed slight alterations in the content of polysaccharides and lignin. White rot fungi circumvented conditions restricting hyphal growth within the occluded tracheid lumina by hyphal tunnelling in the secondary walls of fibre tracheids in beech or by forming bore holes that transversally penetrated cell walls of earlywood tracheids in THM-densified spruce. The studies indicate that THM-densified beech and Norway spruce wood may have some potential in utility class 3 but are inappropriate for use in utility class 4.

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Section: Discussionmentioning

confidence: 89%

“…However, studies of the resistance of THM-densified beech and Norway spruce wood to soft rot fungi revealed that both types of wood are highly susceptible and therefore inappropriate for use in utility class 4, i.e., in contact with ground or fresh water (Skyba et al 2008).…”

Section: Introductionmentioning

confidence: 99%

Resistance of thermo-hygro-mechanically (THM) densified wood to degradation by white rot fungi

Skyba¹,

Niemz

Schwarze

2009

HFSG

Self Cite

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“…Because of these superior characteristics, wood is popular and widely used in many areas. However, under suitable climatic conditions, wood is easily biodegradable and vulnerable to various organisms like fungi and insects [1,2]. Wood contains cellulose, hemicellulose, lignin, and small amounts of sugars.…”

Section: Introductionmentioning

confidence: 99%

The Influence of a Thermal Treatment on the Decay Resistance of Wood via FTIR Analysis

Pan

et al. 2018

Advances in Materials Science and Engineering

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e decay resistance of wood can be improved via a vacuum heat treatment. e amount of nutrients from cellulose, hemicellulose, and lignin and amount of sugars needed by the fungi during their growth were investigated. e results showed that the absorbance peaks corresponding to absorbed CH 3 -CH 2 -, C�O, and the benzene ring skeleton stretching vibration all noticeably weakened with increased heat treatment. is indicated that the cellulose, hemicellulose, and lignin degraded to varying degrees. e specimens with a higher initial moisture content (MC) showed greater amounts of nutrient degradation after 2 h at the same heat treatment temperature. e chemical analysis results were in good agreement with the Fourier transform infrared (FTIR) analysis results. e decay resistance tests showed that the average mass loss of the heat-treated specimens was up to 10.8%, in contrast to 22.23% for the untreated specimens. Furthermore, the FTIR analysis of the heat and decay-resistance test showed that the vibration wave peaks that corresponded to CH 3 -CH 2 -at 2954 cm −1 showed noticeably less separation at higher heating temperature. is demonstrated that the cellulose hydrolysis in the wood decreased at higher heating temperatures, which explained why the decay resistance increased with increased heat treatment.

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“…Temperature treatments at 160-2008C decrease the hydrophility of wood and improves its bio-durability. Thermohygromechanically treated wood has similarly improved properties (Skyba et al 2008(Skyba et al , 2009. Disadvantages are the loss of mechanical strengths (Biziks et al 2010) and the considerable energy input.…”

Section: Introductionmentioning

confidence: 99%

Lignins as agents for bio-protection of wood

et al. 2011

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Pinewood was modified by vacuum impregnation with various aqueous lignin solutions of low concentration (0.5-1.0%) and its decay resistance was tested by the standard procedure EN 113. Five lignin types were tested against three brown rot and one white rot fungi. The bio-durability of wood was considerably increased by the treatment. The highest effect of modification was for alkali, kraft, hydrolysis lignins and industrial lignosulfonate, when mass losses of wood for brown-rot fungi were negligible. The effect of the modification with certified lignosulfonates was insignificant. Chemical analysis revealed that phenols, which are leached from lignin and are adsorbed by wood in the impregnation process, could act as a biocide. The hydrophilic properties of wood either did not change (certified lignins) or were enhanced because of some change in the pore structure (industrial lignins). Further tests are needed to verify the positive effects of this technologically simple and environmentally friendly treatment.

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Degradation of thermo-hygro-mechanically (THM)-densified wood by soft-rot fungi

Cited by 20 publications

References 20 publications

Resistance of thermo-hygro-mechanically (THM) densified wood to degradation by white rot fungi

Resistance of thermo-hygro-mechanically (THM) densified wood to degradation by white rot fungi

The Influence of a Thermal Treatment on the Decay Resistance of Wood via FTIR Analysis

Lignins as agents for bio-protection of wood

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