Effects of pressurized N2 and steam as heating medium on the set recovery of surface compressed white poplar (Populus tomentosa)

IF 2.5 3区农林科学 Q1 FORESTRY

European Journal of Wood and Wood Products Pub Date : 2025-06-13 DOI:10.1007/s00107-025-02276-2

Shanghuan Feng, Rongfeng Huang, Qin Xiang, Xiaoyu He, Yanwei Wang, Longxiang Sun, Jing Li

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Abstract

Permanent fixation of compressive deformation is one critical aspect of wood densification technology. In this study, heated and pressurized nitrogen gas (N₂), steam and their mixture were applied as the heating media to treat surface compressed poplar wood for the compressive deformation fixation. When steam was applied at 0.5 MPa, around 80% of the compressive deformation was permanently fixed. Although heat treatment in N₂ also caused hemicellulose degradation in wood as that caused by heat treatment with steam, yields of acetic acid and aldehyde compounds were significantly lower than that from heat treatment of surface compressed wood (SCW) with steam-N₂ mixture containing more than 50 vol % steam. Heat treatment with steam effectively reduced set recovery of SCW. Set recovery induced from hygroscopicity and water absorption were 2 to 4 times higher than those after treated with steam treatment. Additionally, heat treatment in N₂ resulted in the biggest wood hardness loss. When steam-N₂ volumetric ratio was 1:1, set recovery was over 50% lower than that obtained by heat treatment in N₂, while wood hardness was just slightly decreased. Steam introduction into N₂ for SCW heat treatment significantly reduced the compressive set recovery as well as mass loss. From the perspective of industrial manufacture and application, when the heating medium pressure exceeded 0.3 MPa, steam-N₂ mixture medium with over 50 vol % steam contributed to the permanent fixation of over 50% compressive deformation. Meanwhile, the set recovery of SCW after exposed to high temperature and high humidity was less than 5%, with no excessive hardness loss.

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加压N2和蒸汽作为加热介质对表面压缩白杨（Populus tomentosa）凝固恢复的影响

压缩变形的永久固定是木材致密化技术的一个关键方面。本研究采用加热加压的氮气（N2）、蒸汽及其混合物作为加热介质，对表面压缩杨木进行压缩变形固定。当蒸汽施加在0.5 MPa时，大约80%的压缩变形是永久固定的。虽然在氮气中热处理也会引起木材中半纤维素的降解，但与蒸汽热处理一样，乙酸和乙醛化合物的产率明显低于用蒸汽-N2混合物含50 vol %以上蒸汽处理表面压缩木材（SCW）的产率。蒸汽热处理有效地降低了污水的集热回收率。吸湿性和吸水性诱导的凝块回收率比蒸汽处理高2 ~ 4倍。此外，在N2中热处理导致木材硬度损失最大。当蒸汽与N2体积比为1:1时，木材的凝固回收率比N2热处理低50%以上，而木材的硬度只是略有下降。在氮气中引入蒸汽进行SCW热处理，显著降低了压缩集回收量和质量损失。从工业制造和应用的角度来看，当加热介质压力超过0.3 MPa时，蒸汽含量超过50 vol %的蒸汽- n2混合介质有助于永久固定50%以上的压缩变形。同时，经高温高湿处理后的硫化钨凝固回收率小于5%，硬度损失不大。

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

European Journal of Wood and Wood Products 工程技术-材料科学：纸与木材

CiteScore

5.40

自引率

3.80%

发文量

124

审稿时长

6.0 months

期刊介绍： European Journal of Wood and Wood Products reports on original research and new developments in the field of wood and wood products and their biological, chemical, physical as well as mechanical and technological properties, processes and uses. Subjects range from roundwood to wood based products, composite materials and structural applications, with related jointing techniques. Moreover, it deals with wood as a chemical raw material, source of energy as well as with inter-disciplinary aspects of environmental assessment and international markets. European Journal of Wood and Wood Products aims at promoting international scientific communication and transfer of new technologies from research into practice.