OPTIMIZATION OF PROTECTIVE COATING COMPONENTS OF THERMOMODIFIED WOOD TO THE EXPOSURE OF WATER

Bulletin of Odessa State Academy of Civil Engineering and Architecture Pub Date : 2021-09-30 DOI:10.31650/2415-377x-2021-84-101-109

Y. Tsapko, A.Yu. Gorbachova, S. Mazurchuk, O. Bondarenko

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Abstract

Abstract. Paints and varnishes are used to a large extent to protect wood surfaces in outdoor conditions, as they are easy to maintain and reapply. Also, when developing a coating, manufacturers are guided by the need to obtain a number of properties that generally determine its ability to protect against moisture. To obtain a protective coating that meets the specified requirements, it is necessary that the components that make up the coating belong directly to the group of protective materials or form such compounds under operating conditions, be able to adhere to the surface of the product. It was found that thermal modification provides a decrease in water absorption of wood. Additional processing of the wood surface helps to reduce moisture absorption by 2 times, and for samples modified at a temperature of 220 °C – 3 times. Geometric dimensional stability is also improved by a factor of 2. The effect of heat treatment on the water absorption of wood is somewhat less – for samples modified at 190 and 220 °C for more than 10 hours. Protective substances for thermally modified wood provided similar protection of open thermally modified surfaces of wood from the effects of water. The positive effect of thermal modification on a decrease in the level of water absorption has been established. It has been proven that it is temperature that has a significant effect on such changes. Since the protective coating is also susceptible to photochemical degradation, it is very important to renew it in a timely manner in accordance with the manufacturer's instructions for the pleasant appearance of wood surfaces during external use. The optimal ratio of components in the surface layer of thermally modified wood has been determined, which ensures the fulfillment of the task, namely for a mixture of oil and wax: the density of a wood – 724 kg/m3; oils – 70.0%; wax – 17.5%. Therefore, such treatment is beneficial for the protection and aesthetic appeal of wood products.

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热改性木材防水防护涂层成分的优化

摘要油漆和清漆在很大程度上用于保护户外条件下的木材表面，因为它们易于维护和重新涂抹。此外，在开发涂层时，制造商需要获得一些通常决定其防潮能力的性能。为了获得符合规定要求的保护涂层，组成涂层的成分必须直接属于保护材料组或在操作条件下形成此类化合物，能够粘附在产品表面。结果表明，热改性降低了木材的吸水率。木材表面的额外处理有助于减少2倍的吸湿性，对于在220°C温度下改性的样品- 3倍。几何尺寸稳定性也提高了2倍。热处理对木材吸水率的影响稍微小一些-对于在190和220°C下改性10小时以上的样品。热改性木材的保护物质对木材的开放热改性表面提供类似的保护，使其不受水的影响。热改性对降低吸水率的积极作用已得到证实。事实证明，温度对这些变化有重要影响。由于保护涂层也容易受到光化学降解的影响，因此在外部使用过程中，为了使木材表面的外观美观，及时按照制造商的说明进行更新是非常重要的。确定了热改性木材表层组分的最佳比例，确保了任务的完成，即油和蜡的混合物:木材的密度- 724 kg/m3;油- 70.0%;蜡- 17.5%。因此，这样的处理有利于木制品的保护和美观。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Bulletin of Odessa State Academy of Civil Engineering and Architecture

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