利用介电光谱学评估温度和冷却速度对木材中水冻结的影响

IF 3.1 2区 农林科学 Q1 FORESTRY Wood Science and Technology Pub Date : 2024-04-01 DOI:10.1007/s00226-024-01550-5
Mengyao Ai, Shan Gao, Xinyu Song, Manxuan Feng
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引用次数: 0

摘要

摘要 长期生活在亚寒带环境中的树木容易发生脆性断裂和冻伤,从而限制了木材的质量和最终利用率。本研究利用介电光谱法研究了温度和冷却速度对木材中水分冻结的影响。观察了木材冷却过程中的介电参数,如介电常数、损耗因子和弛豫强度。发现零下温度和冷却速度对介电参数的影响很大。慢速冷却时的介电参数一般比快速冷却时高 12%∼143%。在从 20°C 降温到 - 80°C 的冷却过程中,根据介电参数的变化将木材中水的冻结过程分为四个阶段,并利用扫描电镜和 DSC 方法表征了其对木材细胞壁的影响。该研究结果为探索木材中水的冻结行为以及进一步确定树木冻伤的原因提供了依据。
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Evaluation of the effects of temperature and cooling rate on the freezing of water in wood using dielectric spectroscopy

Trees living in subfreezing environments for extended periods are susceptible to brittle fracture and freezing injury, which limits wood quality and final utilization. This study investigates the effects of temperature and cooling rate on the freezing of water in wood using dielectric spectroscopy. Dielectric parameters such as dielectric constant, loss factor, and relaxation strength were observed during cooling process of wood. The effects of subzero temperature and cooling rate on the dielectric parameters were found significant. The dielectric parameters at a slow-cooling rate were generally higher 12%∼143% than those at a fast-cooling rate. During the cooling process from 20°C dropped to − 80°C, the freezing process of water in wood was divided into four stages based on the dielectric parameter change and its impact on wood cell wall was characterized using SEM and DSC methods. The findings of this study provide the basis to explore the freezing behavior of water in wood and further to determine the cause of freezing injury in trees.

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来源期刊
Wood Science and Technology
Wood Science and Technology 工程技术-材料科学:纸与木材
CiteScore
5.90
自引率
5.90%
发文量
75
审稿时长
3 months
期刊介绍: Wood Science and Technology publishes original scientific research results and review papers covering the entire field of wood material science, wood components and wood based products. Subjects are wood biology and wood quality, wood physics and physical technologies, wood chemistry and chemical technologies. Latest advances in areas such as cell wall and wood formation; structural and chemical composition of wood and wood composites and their property relations; physical, mechanical and chemical characterization and relevant methodological developments, and microbiological degradation of wood and wood based products are reported. Topics related to wood technology include machining, gluing, and finishing, composite technology, wood modification, wood mechanics, creep and rheology, and the conversion of wood into pulp and biorefinery products.
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