Effects of Pretreatment for Controlling Internal Water Transport Direction on Moisture Content Profile and Drying Defects in Large-Cross-Section Red Pine Round Timber during Kiln Drying

Q2 Engineering

Journal of the Korean wood science and technology Pub Date : 2023-11-01 DOI:10.5658/wood.2023.51.6.493

B. Batjargal, Taekyeong Lee, Myungsik Cho, Chang-Jin Lee, Hwan-Myung Yeo

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引用次数: 0

Abstract

Round timber materials of 600 mm length, cut from large-cross-section round timber of red pine ( Pinus densiflora S. et Z.) of 450 mm width and 4.2 m length, were prepared as the target of kiln drying in this study. After treating the target materials through end sealing (ES), end sealing - kerfing (ES-K), lateral sealing - end sealing - boring (LS-ES-B), or lateral sealing - partial end sealing (LS-PES), the effects of the treatment on the incidence of drying defects were determined. The target materials with exposed lateral surface and sealed cross surface were steamed at the initial temperature of 65℃ above the official pest control temperature of 56℃, followed by kiln drying toward the final temperature of 75℃. The target materials with sealed lateral surfaces, on the other hand, were dried at the initial temperature of 90℃ at almost the maximum temperature of conventional kiln drying, as there is no risk of early check formation caused by surface moisture evaporation. The final temperature was set at approximately 100℃. The drying time, taken for the target materials with initial moisture content of 70%–80% to reach the target moisture content of 19%, varied across treatment conditions. The measured drying time was 1,146 hours (approximately 48 days) for the timber with sealed cross surface and 745 hours (approximately 31 days) for the timber with sealed lateral surface, until the moisture content reached the target level. The formation of surface checks could not be prevented in the control and ES groups, but a definite preventive effect was obtained for the LS-ES-B and LS-PES groups.

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控制内水输送方向的预处理对窑干过程中大截面红松圆材水分含量分布和干燥缺陷的影响

本研究以红松（Pinus densiflora S. et Z.）宽 450 毫米、长 4.2 米的大截面圆材为窑干对象，准备了长度为 600 毫米的圆材。通过端部密封（ES）、端部密封-切口（ES-K）、侧面密封-端部密封-镗孔（LS-ES-B）或侧面密封-部分端部密封（LS-PES）处理目标材料后，确定了处理对干燥缺陷发生率的影响。外露横向表面和密封横向表面的目标材料在高于官方虫害控制温度 56℃ 的初始温度 65℃ 下蒸煮，然后在最终温度 75℃ 下进行窑干。而侧面密封的目标材料则在 90℃的初始温度下进行干燥，这几乎是传统窑炉干燥的最高温度，因为没有因表面水分蒸发而形成早期检查的风险。最终温度约为 100℃。初始含水量为 70%-80% 的目标材料从达到 19% 的目标含水量所需的干燥时间因处理条件而异。在含水率达到目标水平之前，横向表面密封的木材的干燥时间为 1146 小时（约 48 天），横向表面密封的木材的干燥时间为 745 小时（约 31 天）。对照组和 ES 组无法防止表面裂纹的形成，但 LS-ES-B 组和 LS-PES 组取得了明显的预防效果。

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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来源期刊

Journal of the Korean wood science and technology Materials Science-Materials Science (miscellaneous)

CiteScore

5.20

自引率

0.00%

发文量

期刊介绍： The Journal of the Korean Wood Science and Technology (JKWST) launched in 1973 as an official publication of the Korean Society of Wood Science and Technology has been served as a core of knowledges on wood science and technology. The Journal acts as a medium for the exchange of research in the area of science and technology related to wood, and publishes results on the biology, chemistry, physics and technology of wood and wood-based products. Research results about applied sciences of wood-based materials are also welcome. The Journal is published bimonthly, and printing six issues per year. Supplemental or special issues are published occasionally. The abbreviated and official title of the journal is ''J. Korean Wood Sci. Technol.''. All submitted manuscripts written in Korean or English are peer-reviewed by more than two reviewers. The title, abstract, acknowledgement, references, and captions of figures and tables should be provided in English for all submitted manuscripts.