Surface Wettability Of Boron And Oil-Treated Wood

Tomak, Eylem Dizman

doi:10.1590/01047760202228013058

Cited by 6 publications

(2 citation statements)

References 41 publications

(73 reference statements)

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“…The fact that the mechanical oil loading applied to the cell wall and the increase in the internal pressure in the cell wall cause microcracks in the cell wall layers has been reported to be the reason for this, and the microcracks in the S1 layer can decrease the resistance. A slight decrease in the compression strength parallel to the grains of wood impregnated with vegetable oils was also reported by Tomak (2011).…”

Section: Peer-reviewed Articlesupporting

confidence: 67%

Ultraviolet light and natural weathering vs. the compression strength of laminated wood

Doruk

2023

BioRes

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Effects of protective measures were evaluated relative to the compression strength in the direction parallel to the grain of laminated veneer wood (LVL). For this purpose, laminated panels were prepared from Scots pine, Oriental beech, Castanea sativa, and sessile oak wood veneer by gluing them with Desmodur vinyl trie ketonol acetate (D-VTKA), polyvinyl-acetate (PVAc) dispersion D4 adhesive, resorcinol formaldehyde (RF), and melamine formaldehyde (MF). The samples were impregnated with a mixture of wax, linseed oil, and coated with a synthetic-based translucent varnish. The control samples (without the treatment described above), impregnated samples, and varnished samples were kept in the external environment for 1 y and in an ultraviolet (UV) environment for 240 h. The samples were tested to determine the air-dried density, retention amount, and compression strength. The results indicated that, in terms of outdoor conditions, the varnished proceeding provided better protection compared to the impregnated proceeding. The best result for compression strength was obtained on the Oriental beech samples with RF and MF glues. The ratio of the UV environment to represent the external environment was 89%.

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Section: Peer-reviewed Articlesupporting

confidence: 67%

Ultraviolet light and natural weathering vs. the compression strength of laminated wood

Doruk

2023

BioRes

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“…В целом, древесина, обработанная при более высоких температурах в течение более длительного времени, демонстрирует более значительную потерю массы, цвета и механических свойств, но большее улучшение стабильности размеров и биологической долговечности. Термическая обработка приводит к снижению большинства прочностных свойств древесины, которые зависят от температуры и времени обработки [18][19][20].…”

Section: деревопереработка химические технологииunclassified

Water absorption and swelling of Betula pendula ROTH wood modified with oligomers from by-products of polybutadiene production

Nikulina,

Dornyak,

Dmitrenkov

et al. 2024

Forestry Engineering Journal

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Currently, natural wood and products based on it are in high demand. The technology of impregnation of low-value wood species on the example of B. pendula ROTH with an oligomeric material obtained from rubber production waste has been studied. Oligomers with a styrene content of 10 and 90% were obtained. In the first case, the low molecular weight copolymer had a molecular weight of 1100-1300, and in the second - 1700-2000. Impregnation of B. pendula ROTH wood was carried out in a solution of the obtained oligomer in toluene. In order to speed up the drying process of the protective coating and increase its strength, NF-1 siccative was introduced into the impregnation composition in an amount of 4-5%. The impregnation was carried out at temperatures of 60 and 120 ˚C, followed by heat treatment at temperatures of 100 and 160 ˚C. In the work, using the theory of experimental planning, a regression model was created that made it possible to describe the effects of a number of technological indicators on increasing the water and moisture resistance of modified wood. Verification of the coefficients of the models for significance was carried out using the Student's criterion. The obtained regression models make it possible to predict the characteristics of water resistance of birch wood modified due to its impregnation with a low-molecular copolymer containing styrene at specified values of technological parameters - the styrene content in the impregnating composition, the values of the impregnation temperature and heat treatment. It is shown that in order to increase the efficiency of the impregnation and heat treatment process, it is necessary to adhere to the minimum values of the considered temperature intervals, and the styrene content in the applied oligomeric product should be ~ 90% by weight. Modifying treatment of wood with an oligomer from by-products of polybutadiene production makes it possible to improve its water resistance. The use of the proposed impregnating compounds contributes to the disposal of waste and by-products of polybutadiene production.

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