A laboratory method to determine 3D fibre orientation around knots in sawn timber: case study on a Douglas fir specimen

IF 3.1 2区农林科学 Q1 FORESTRY

Wood Science and Technology Pub Date : 2024-08-09 DOI:10.1007/s00226-024-01583-w

Helene Penvern, Leyne Demoulin, Guillaume Pot, Joffrey Viguier, Benjamin Roux, Min Hu, Anders Olsson

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Abstract

The mechanical properties of structural timber largely depend on the occurrence of knots and on fibre deviation in their vicinities. In recent strength grading machines, lasers and cameras are used to detect surface characteristics such as the size and position of knots and local fibre orientation. Since laser dot scanning only gives reliable information about the fibre orientation in the plane of board surfaces, simple assumptions are usually made to define the inner fibre orientation to model timber boards. Those models would be improved by better insight into real fibre deviation around knots. In the present work, a laboratory method is developed to evaluate growth layers geometries and fibre orientation, solely based on the fact that the fibers are parallel to the tree rings and without any further assumptions. The method simply relies on color scans and laser dot scans of Douglas fir (Pseudotsuga menziesii) timber specimen sections revealed by successive planing. The proposed method provides data on fibre orientation in 3D with an accuracy that is relevant for the calibration of detailed models.

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确定锯材节疤周围三维纤维取向的实验室方法：花旗松试样案例研究

结构木材的机械性能在很大程度上取决于节疤的出现及其附近的纤维偏差。在最新的强度分级机中，激光和照相机被用来检测板结的大小和位置以及局部纤维方向等表面特征。由于激光点扫描只能提供木板表面平面上纤维方向的可靠信息，因此通常采用简单的假设来定义内部纤维方向，从而建立木板模型。如果能更好地了解木节周围的实际纤维偏差，这些模型就会得到改善。在目前的工作中，我们开发了一种实验室方法来评估生长层的几何形状和纤维方向，这种方法完全基于纤维与树年轮平行这一事实，而不需要任何进一步的假设。该方法仅依赖于通过连续刨削显示的花旗松（Pseudotsuga menziesii）木材试样切片的彩色扫描和激光点扫描。所提出的方法可提供三维纤维定向数据，其精确度可用于校准详细模型。

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来源期刊

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

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.