Effects of moisture and cellulose fibril angle on the tensile properties of native single Norway spruce wood fibres

Horbelt Nils; Dunlop John W. C.; Bertinetti Luca; Fratzl Peter; Eder Michaela

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Effects of moisture and cellulose fibril angle on the tensile properties of native single Norway spruce wood fibres

机译：水分和纤维素纤维角对天然挪威云杉木纤维的拉伸性能的影响

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Isolated single wood fibres with cellulose fibril angles from 10 to 43 degrees were tested in microtensile tests under controlled temperature and relative humidity of 5, 50, 75, 90% and in the wet state. This systematic study provides experimental stiffness and strength data, calculated on cell wall cross sections. It has been shown that stiffness reduction with increasing moisture content is more pronounced in fibres with large cellulose fibril angles. Interestingly, stiffness reduction in fibres with low cellulose fibril angles has been observed for the fully hydrated state only. The experimental dataset was fed into a model to determine moisture dependent stiffness of the hemicellulose-lignin-matrix and the stresses acting on the fibrils and the matrix.

机译：在受控温度和相对湿度为5,50,75,90％和湿态的微调试验中，在10至43度的纤维素原纤维角度的隔离的单木纤维在湿湿度下进行。该系统研究提供了在细胞壁横截面上计算的实验刚度和强度数据。已经表明，随着水分含量增加的刚度降低在具有大纤维素原纤维角的纤维中更加明显。有趣的是，仅针对完全水合的状态观察到具有低纤维素原纤维角角的纤维的刚度降低。将实验数据集进料到模型中以确定半纤维素 - 木质素 - 基质的水分依赖性刚度以及作用在原纤维和基质上的应力。

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《Wood Science and Technology》 |2021年第5期|1305-1318|共14页
作者
Horbelt Nils; Dunlop John W. C.; Bertinetti Luca; Fratzl Peter; Eder Michaela;
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Max Planck Inst Colloids & Interfaces Dept Biomat Muhlenberg 1 D-14476 Potsdam Germany;

Paris Lodron Univ Salzburg Dept Chem & Phys Mat Morphophys Grp Salzburg Austria;

Max Planck Inst Colloids & Interfaces Dept Biomat Muhlenberg 1 D-14476 Potsdam Germany|Tech Univ Dresden B CUBE Ctr Mol Bioengn D-01307 Dresden Germany;

Max Planck Inst Colloids & Interfaces Dept Biomat Muhlenberg 1 D-14476 Potsdam Germany;

Max Planck Inst Colloids & Interfaces Dept Biomat Muhlenberg 1 D-14476 Potsdam Germany;

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入库时间 2022-08-19 02:28:11

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Effects of moisture and cellulose fibril angle on the tensile properties of native single Norway spruce wood fibres

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