Effect of natural weathering on water absorption and pore size distribution in thermally modified wood determined by nuclear magnetic resonance

Cai, Chenyang; Javed, Muhammad Asadullah; Komulainen, Sanna; Telkki, Ville‐Veikko; Haapala, Antti; Heräjärvi, Henrik

doi:10.1007/s10570-020-03093-x

Cited by 28 publications

(21 citation statements)

References 53 publications

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“…Water molecules existing in wood that is adequately supplied with liquid water are roughly classified into two types: "bound water" and "free water" (Brownstein 1980;Gezici-Koç et al 2017;Cai et al 2020;Hiltunen et al 2020). Since bound water is tightly bound to molecules in the cell walls and fibers composed of mainly cellulose, hemicellulose and lignin, the T 2 relaxation time constant of the hydrogen atoms in the bound water is shorter than 1 ms (Müller et al 2001;Gezici-Koç et al 2017;Cai et al 2020;Hiltunen et al 2020). On the other hand, since free water existing in the voids such as cell lumens and vessels can move relatively freely, the T 2 relaxation time constant of free water is longer than 1 ms.…”

Section: Identification Methods Of Fungi Growth Area By Mrimentioning

confidence: 99%

“…The origin of the NMR signal that reconstructs the MR image is the hydrogen atoms in water molecules. The NMR signal emitted from the hydrogen atoms contained in the many water molecules constituting wood tissue such as cellulose or hemicellulose cannot be measured under the MRI measurement condition of echo time TE = 12 ms since the T 2 relaxation time constant of the hydrogen atoms is much shorter than 1 ms (Müller et al 2001;Gezici-Koç et al 2017;Cai et al 2020;Hiltunen et al 2020). However, if wood contains liquid water, the water inside the wood can be visualized by MRI (Hall and Rajanayagam 1986;Chang et al 1989;Wang and Joseph 1989;Bucur 2003;Kuroda et al 2006;Hameury and Sterley 2006;Zhou et.…”

Section: Measurement Parameters For Mrimentioning

confidence: 99%

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Enhanced water uptake in the longitudinal direction by shiitake mycelium in shiitake cultivation logs: increase in effective diffusion coefficient based on mass of liquid water uptake

Ogawa

Yashima²

2021

Wood Sci Technol

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In the cultivation of shiitake mushrooms (Lentinula edodes), the farmer needs to know the time needed to water in order to adjust the water content of the logs. In this study, six test logs (Quercus serrata, diameter of 38-48 mm, length of 110-118 mm) were used, of which some were dried, some had shiitake mycelia grown on them, and some had mold generated on them. Liquid water was supplied to the test logs by placing the longitudinal direction of the test logs along the line of gravity and immersing the bottom of the test logs in water. Water uptake mass of the test logs was measured for 20 h. The effective diffusion coefficient, D eff , was calculated from the change in time of the water uptake mass using Fick's diffusion law. The D eff of test logs in which shiitake mycelium grew were 1.5-3.4 × 10 -8 m 2 /s, and the values were 2.4-4.7 times higher than that for the dried log. On the other hand, the D eff of the moldy logs were 6.7-9.7 × 10 -10 m 2 /s, which was 0.058-0.081 times that of dry test logs. Based on observation of water penetration into logs by magnetic resonance imaging (MRI) and an optical microscope, it is believed that the driving force behind liquid water rising in the longitudinal direction in the test log is the capillary force acting on a three-phase interface consisting of the inner wall surface of the vessel, liquid water and air.

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Section: Identification Methods Of Fungi Growth Area By Mrimentioning

confidence: 99%

Section: Measurement Parameters For Mrimentioning

confidence: 99%

Enhanced water uptake in the longitudinal direction by shiitake mycelium in shiitake cultivation logs: increase in effective diffusion coefficient based on mass of liquid water uptake

Ogawa

Yashima²

2021

Wood Sci Technol

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“…Hygroscopicity Thermal modification reduces the amount of bound water in the wood cell wall [139,140]. However, the behaviour of HT dry and HT wet wood is different.…”

Section: Changes In Physical Propertiesmentioning

confidence: 99%

Thermal modification of wood—a review: chemical changes and hygroscopicity

2021

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Thermal modification is a well-established commercial technology for improving the dimensional stability and durability of timber. Numerous reviews of thermally modified timber (TMT) are to be found in the scientific literature, but until now a review of the influence of cell wall moisture content during the modification process on the properties of TMT has been lacking. This paper reviews the current state of knowledge regarding the hygroscopic and dimensional behaviour of TMT modified under dry (cell wall at nearly zero moisture content) and wet (cell wall contains moisture) conditions. After an overview of the topic area, the review explores the literature on the thermal degradation of the polysaccharidic and lignin components of the cell wall, as well as the role of extractives. The properties of TMT modified under wet and dry conditions are compared including mass loss, hygroscopic behaviour and dimensional stability. The role of hydroxyl groups in determining the hygroscopicity is discussed, as well as the importance of considering the mobility of the cell wall polymers and crosslinking when interpreting sorption behaviour. TMT produced under wet processing conditions exhibits behaviour that changes when the wood is subjected to water leaching post-treatment, which includes further weight loss, changes in sorption behaviour and dimensional stability, but without any further change in accessible hydroxyl (OH) content. This raises serious questions regarding the role that OH groups play in sorption behaviour. Graphical abstract

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“…The water-saturated samples were characterised with LFNMR and showed four peaks in the T 2 relaxation spectrum. For unmodified wood samples, typically only three peaks are determined which arise from water within the wood structure-one peak with the shortest relaxation time attributed to bound water within the cell wall, another smaller peak attributed to free water in small voids of the wood anatomy (e.g., bordered bits and ray lumina) and a large peak for free water in tracheid lumina [50][51][52]70]. The small fourth peak determined for control samples in the current study (peak 1.5, Figure 5a, Table 3) may be due to the 18 h 140 • C thermal treatment that these samples received, since thermal treatment can cause microcracking within the cell wall [72,73].…”

Section: Discussionmentioning

confidence: 99%

“…In porous media, the relaxation time of water molecules depends on both the size of the pores containing the water and the chemical interaction between the water and the pore wall [46]. In a Carr-Purcell Meiboom-Gill (CPMG) experiment, T 2 relaxation time is measured and water saturated wood samples exhibit 3-4 water populations with distinct T 2 values [47][48][49][50][51][52]. One population is attributed to water within the cell wall and the 2-3 other populations arise from free water within the wood void structure.…”

Section: Low-field Nuclear Magnetic Resonance Relaxometrymentioning

confidence: 99%

Leachability and Decay Resistance of Wood Polyesterified with Sorbitol and Citric Acid

Beck

2020

Forests

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Research Highlights: Polyesterification of wood with sorbitol and citric acid (SCA) increases decay resistance against brown-rot and white-rot fungi without reducing cell wall moisture content but the SCA polymer is susceptible to hydrolysis. Background and Objectives: SCA polyesterification is a low-cost, bio-based chemical wood modification system with potential for commercialisation. Materials and Methods: This study investigates moisture-related properties and decay resistance in SCA-modified wood. Scots pine sapwood was polyesterified at 140 °C with various SCA solution concentrations ranging from 14–56% w/w. Dimensional stability was assessed and leachates were analysed with high-performance liquid chromatography (HPLC). Chemical changes were characterized with attenuated total reflection Fourier-transform infrared spectroscopy (ATR-FTIR) and spectra were quantitatively compared with peak ratios. Low-field nuclear magnetic resonance (LFNMR) relaxometry was used to assess water saturated samples and decay resistance was determined with a modified EN113 test. Results: Anti-swelling efficiency (ASE) ranged from 23–43% and decreased at higher weight percentage gains (WPG). Reduced ASE at higher WPG resulted from increased water saturated volumes for higher treatment levels. HPLC analysis of leachates showed detectable citric acid levels even after an EN84 leaching procedure. ATR-FTIR analysis indicated increased ester content in the SCA-modified samples and decreased hydroxyl content compared to controls. Cell wall water assessed by non-freezing moisture content determined with LFNMR was found to increase because of the modification. SCA-modified samples resisted brown-rot and white-rot decay, with a potential decay threshold of 50% WPG. Sterile reference samples incubated without fungi revealed substantial mass loss due to leaching of the samples in a high humidity environment. The susceptibility of the SCA polymer to hydrolysis was confirmed by analysing the sorption behaviour of the pure polymer in a dynamic vapour sorption apparatus. Conclusions: SCA wood modification is an effective means for imparting decay resistance but, using the curing parameters in the current study, prolonged low-level leaching due to hydrolysis of the SCA polymer remains a problem.

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Effect of natural weathering on water absorption and pore size distribution in thermally modified wood determined by nuclear magnetic resonance

Cited by 28 publications

References 53 publications

Enhanced water uptake in the longitudinal direction by shiitake mycelium in shiitake cultivation logs: increase in effective diffusion coefficient based on mass of liquid water uptake

Enhanced water uptake in the longitudinal direction by shiitake mycelium in shiitake cultivation logs: increase in effective diffusion coefficient based on mass of liquid water uptake

Thermal modification of wood—a review: chemical changes and hygroscopicity

Leachability and Decay Resistance of Wood Polyesterified with Sorbitol and Citric Acid

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