Scientific Substantiation of Aspen Wood Use in Wooden Glued Structures

Lesnoy Zhurnal (Forestry Journal) Pub Date : 2023-12-10 DOI:10.37482/0536-1036-2023-6-149-161

A. Titunin, Alexander A. Fedotov, T. N. Vakhnina, I. Susoeva, Meline S. Gevorgyan

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Abstract

One of the promising materials for construction are wooden glued structures. According to the current regulatory documents, for the production of such structures coniferous wood is usually used, the reserves of which in industrially developed areas have significantly decreased over the last decades. At the same time, in a number of regions of Russia there is a significant raw material reserve of aspen wood, which has been successfully used in the construction of buildings and structures for many centuries. Its physical and mechanical characteristics differ from pine wood from 3.2 to 18.6 %. Therefore, it can be considered as an alternative source of raw materials for wooden house construction enterprises. To assess the degree influence of the combination of coniferous and aspen wood on the strength of the glue joint, as one of the main indicators of the quality of wooden glued structures, a set of theoretical and experimental studies was carried out. Maximum tangential and normal stresses of glue joint in pine and aspen blanks, which are significantly higher than those of solid wood, were determined by calculation. The values of shear strength in glued pine and aspen lamellas (4.46–8.06 MPa), obtained during the experiments at the 1st stage of research, were close to the strength of solid wood. At the 2nd stage the method of dispersion analysis was used, the results confirmed the assumption that when gluing lamellas up to 20 mm thick, the difference in the strength of the glue joint of structures made of pine and structures made of pine and aspen is insignificant. The obtained data serve as a basis for further work on diversification of raw material resources in the production of wooden glued structures due to the involvement of low-demand aspen wood in processing. For citation: Titunin A.A., Gevorgyan M.S., Fedotov A.A., Vakhnina T.N., Susoeva I.V. Scientific Substantiation of Aspen Wood Use in Wooden Glued Structures. Lesnoy Zhurnal = Russian Forestry Journal, 2023, no. 6, pp. 149–161. (In Russ.). https://doi.org/10.37482/0536-1036-2023-6-149-161

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在木质胶合结构中使用杨木的科学依据

木质胶合结构是最有前途的建筑材料之一。根据现行法规文件，生产此类结构通常使用针叶木，而在过去几十年中，工业发达地区的针叶木储量已大幅减少。同时，在俄罗斯的一些地区，杨木的原材料储备量很大，许多世纪以来，杨木一直被成功地用于建筑和结构的建造。其物理和机械特性与松木相差 3.2% 至 18.6%。因此，可以将其视为木屋建筑企业的替代原材料来源。为了评估针叶木和杨木的组合对作为木质胶合结构质量主要指标之一的胶合接头强度的影响程度，我们进行了一系列理论和实验研究。通过计算确定了松木和杨木坯料胶接处的最大切向应力和法向应力，它们明显高于实木。在研究的第一阶段，实验中获得的松木和杨木胶合薄片的剪切强度值（4.46-8.06 兆帕）接近实木的强度。在第二阶段使用了分散分析方法，结果证实了这样的假设，即在粘合厚度达 20 毫米的薄片时，松木结构与松木和杨木结构的胶合强度差异很小。由于在加工过程中使用了需求量较小的杨木，因此所获得的数据可作为进一步开展木质胶合结构生产中原材料资源多样化工作的基础。供引用：Titunin A.A.、Gevorgyan M.S.、Fedotov A.A.、Vakhnina T.N.、Susoeva I.V.《木质胶合结构中使用杨木的科学依据》。Lesnoy Zhurnal = 俄罗斯林业杂志，2023 年，第 6 期，第 149-161 页。(In Russ.). https://doi.org/10.37482/0536-1036-2023-6-149-161

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Lesnoy Zhurnal (Forestry Journal)

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