未充分利用的硬木树种的机械特性及用于制造交叉层压木材工业垫的潜力

Mercy Ogurunku, Tamara S. F. A. França, Frederico J. N. França, R. D. Seale, Rachel A. Arango, Henry J. Quesada
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摘要

这项研究根据可视木材等级评估了三种未充分利用的硬木树种的机械和物理特性。研究结果与制造交叉层压材(CLT)工业垫所建议的密度、断裂模数(MOR)和弹性模量(MOE)等要求进行了讨论,交叉层压材(CLT)工业垫是低价值硬木树种的潜在最终用途。结果表明,所有受测树种的平均弹性模量都大于制造 CLT 木材所需的弹性模量。从 MOE 和 MOR 之间的相关性可以看出,目测分级是确定强度的一个重要因素。所有等级的红橡木(Quercus rubra L.)的密度都高于南方黄松,后者是制造 CLT 工业垫的传统木材,在含水率为 12% 时的密度为 616 kg/m3;在含水率为 13.98% 时,受测红橡木的平均密度为 770 kg/m3。所有等级的红橡木的 MOE 值和 MOR 值也都符合用于制造 CLT 工业地垫的木材要求。对于甜桉树(Liquidambar styraciflua L.),所有等级的 MOE 和 MOR 值都达到了要求,但只有 3 级和 4 级达到了要求的密度。所有等级的黄杨(Liriodendron tulipifera L.)都达到了所要求的 MOE 和 MOR 值,但没有一种达到所要求的密度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mechanical Properties of Underutilized Hardwood Species and Potential for Use in Fabrication of Cross-Laminated Timber Industrial Mats
This research evaluated the mechanical and physical properties of three underutilized hardwood species according to visual lumber grades. Findings are discussed in relation to the requirements recommended such as density, modulus of rupture (MOR), and modulus of elasticity (MOE) for the manufacture of cross-laminated timber (CLT) industrial mats, which is a potential end use of low-valued hardwood species. Results showed that all species tested had an average MOE greater than that required for CLT lumber. Visual grading was an important component in strength determinations as evidenced by the correlation between MOE and MOR. All grades of red oak (Quercus rubra L.) had higher densities than those of southern yellow pine, which is the traditional wood used in manufacturing CLT industrial mats, with a density of 616 kg/m3 at 12 percent moisture; the average density of the red oak tested was 770 kg/m3 at 13.98 percent moisture. All grades of red oak also had MOE and MOR values that met the requirements for lumber used in the manufacture of CLT industrial mats. For sweetgum (Liquidambar styraciflua L.), all grades met the required values for MOE and MOR, but only Grades 3 and 4 met the required density. All grades of yellow poplar (Liriodendron tulipifera L.) met the required MOE and MOR, but none met the required density.
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