Comparison of Physical and Mechanical Properties of Scots Pine Wood Grown in Different Climatypes

IF 0.2 Q4 FORESTRY
Siarhei U. Rabko, Aleksandr V. Kozel, Liliya F. Pаplauskaya, P. Tupik, Vadzim V. Nosnikau, P. Melnik
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Abstract

It is important to comprehend the physical and mechanical properties of Scots pine wood from various geographical origins in order to use it effectively and rationally in production. The purpose of the study is to determine the physical and mechanical properties of Scots pine wood from 17 climatic ecotypes and to conduct a comparative analysis of the received indicators for the studied climatypes separately and for subspecies, which were grouped according to the classification of L.F. Pravdin. The physical properties that were chosen for the investigation were wood density in an absolutely dry state and at 12 % moisture content. The mechanical characteristics were the tensile strength of the wood along the fibers and the tensile strength in static bending. The range of geographic origins of the seed harvesting locations was from 47 to 62 °N and 22 to 85 °E. The investigation was conducted using contemporary universal testing equipment, MTS Insight 100. It was found that the density of the wood varied from 370 kg/m3 (Kursk climatype) to 524 kg/m3 (Volgograd climatype) under absolutely dry conditions and from 397 kg/m3 (Kursk climatype) to 550 kg/m3 (Volgograd climatype) at 12 % moisture content. The tensile strength of wood along the fibers ranged from 32 MPa (Kursk climatype) to 54 MPa (Volgograd climatype), while the tensile strength in static bending was from 55 to 92 MPa for the Vologda and Ulyanovsk climatypes, respectively. The maximum wood density at 12 % moisture content was 497±8 kg/m3, which is typical for European subspecies. The minimum value of this indicator was 423±30 kg/m3. The medium values had Lapland subspecies and Steppe subspecies 483±16 kg/m3 and 464±12 kg/m3, respectively. The tensile strength of wood along the fibers in the studied subspecies ranged from 47±1 MPa (European subspecies) to 33±4 MPa (Siberian subspecies). For Lapland subspecies, it was 44±2 MPa and slightly lower for Steppe subspecies, which was 42±2 MPa. The maximum value of the tensile strength in static bending for European subspecies was 78±4 MPa. The minimum value for the Siberian subspecies was 61±14 MPa. This indicator was equal for Steppe subspecies and Lapland subspecies, which was 72±4 MPa. For citation: Rabko S.U., Melnik P.G., Kozel A.V., Paplauskaya L.F., Tupik P.V., Nosnikau V.V. Comparison of Physical and Mechanical Properties of Scots Pine Wood Grown in Different Climatypes. Lesnoy Zhurnal = Russian Forestry Journal, 2023, no. 4, pp. 26–40. (In Russ.). https://doi.org/10.37482/0536-1036-2023-4-26-40
不同气候条件下生长的苏格兰松木的物理力学性能比较
了解不同产地的苏格兰松木的物理和机械特性是很重要的,这样才能在生产中有效和合理地利用它。本研究的目的是确定17种气候生态型的苏格兰松材的物理和机械特性,并对所研究的气候类型和亚种的接收指标进行比较分析,并根据L.F. Pravdin分类进行分组。所选择的物理性质的调查是木材密度在绝对干燥状态和12%的水分含量。力学特性为木材沿纤维的抗拉强度和静态弯曲时的抗拉强度。种子收获地点的地理起源范围为北纬47 ~ 62°和东经22 ~ 85°。调查是使用当代通用测试设备MTS Insight 100进行的。研究发现,在绝对干燥条件下,木材密度从370 kg/m3(库尔斯克气候型)到524 kg/m3(伏尔加格勒气候型)不等,在12%的水分含量下,木材密度从397 kg/m3(库尔斯克气候型)到550 kg/m3(伏尔加格勒气候型)不等。木材沿纤维的拉伸强度为32 MPa(库尔斯克气候型)~ 54 MPa(伏尔加格勒气候型),而沃洛格达和乌里扬诺夫斯克气候型的静态弯曲拉伸强度分别为55 ~ 92 MPa。12%含水率时的最大木材密度为497±8 kg/m3,为典型的欧洲亚种。该指标的最小值为423±30 kg/m3。中值为拉普兰亚种(483±16 kg/m3)和草原亚种(464±12 kg/m3)。木材沿纤维的拉伸强度从47±1 MPa(欧洲亚种)到33±4 MPa(西伯利亚亚种)不等。拉普兰亚种为44±2 MPa,草原亚种略低,为42±2 MPa。欧洲亚种静态弯曲拉伸强度最大值为78±4 MPa。西伯利亚亚种的最小值为61±14 MPa。草原亚种和拉普兰亚种的这一指标相同,为72±4 MPa。引用本文:Rabko S.U, Melnik P.G, Kozel A.V, Paplauskaya L.F, Tupik p.v., Nosnikau V.V.。生长在不同气候类型下的苏格兰松木的物理和机械特性比较。俄罗斯林业杂志,2023年第1期。4,第26-40页。(俄国人)。https://doi.org/10.37482/0536-1036-2023-4-26-40
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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