Wood properties and simulated modulus of elasticity of glulam in three fast-growing tree species grown in community forests in Yogyakarta, Java Island, Indonesia

IF 1 Q4 ECOLOGY

Tropics Pub Date : 2020-01-01 DOI:10.3759/tropics.ms20-02

A. Ngadianto, F. Ishiguri, I. Nezu, Yusuke Takahashi, J. Tanabe, F. Hidayati, D. Irawati, J. Ohshima, S. Yokota

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引用次数: 4

Abstract

Community forests in Indonesia are important suppliers of wood resources for the wood industry. In the present study, stress-wave velocity of stems, log characteristics (taper, green density, and dynamic Young ʼ s modulus), and wood properties (basic density, compressive strength parallel to grain, modulus of elasticity [MOE], and modulus of rupture [MOR]) were investigated for three fast-growing tree species grown in community forests in Indonesia: Acacia mangium Willd. , Maesopsis eminii Engl. , and Melia azedarach L. Based on the bending properties, the MOE values of laminae (30 × 150 mm in cross-section) and glulam (six layers, 90 × 150 mm in cross-section) were simulated. The mean values of simulated MOE in the laminae were 8.93, 6.82, and 8.63 GPa for A. mangium , M. eminii , and M. azedarach , respectively. When the laminae from a species were randomly laminated, the simulated MOE values of glulam were 8.94, 6.82, and 8.66 GPa for A. mangium, M. eminii , and M. azedarach, respectively. When laminae with a high, medium, and low MOE were laminated at outer, middle, and inner layers of glulam, respectively, the simulated MOE values of glulam increased by about 5 % to 15 % compared to the values of a randomly laminated one. It is concluded that glulam with a high MOE can be produced from fast-growing tree species grown in community forests in Indonesia.

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印度尼西亚爪哇岛日惹社区森林中生长的三种速生树种胶合木的木材特性和模拟弹性模量

印度尼西亚的社区森林是木材工业木材资源的重要供应商。本文研究了生长在印度尼西亚群落林中的三种速生树种——相思(Acacia mangium Willd)的树干应力波速度、原木特征(锥度、绿密度和动态杨氏模量)和木材特性(基本密度、平行抗压强度、弹性模量[MOE]和断裂模量[MOR])。英文:Maesopsis eminii基于弯曲性能，模拟了层材(30 × 150mm截面)和胶合材(6层，90 × 150mm截面)的MOE值。层间模拟MOE的平均值分别为8.93、6.82和8.63 GPa，其中mangium、M. eminii和M. azedarach的平均值分别为8.93、6.82和8.63 GPa。随机叠片时，mangium、M. eminii和M. azedarach的模拟MOE值分别为8.94、6.82和8.66 GPa。在胶合板的外层、中层和内层分别层合高、中、低MOE的层合材料时，胶合板的模拟MOE值比随机层合的数值提高了约5% ~ 15%。由此得出结论，在印度尼西亚的社区森林中生长的速生树种可以生产出具有高MOE的胶合木。

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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来源期刊

Tropics ECOLOGY-

CiteScore

1.40

自引率

0.00%

发文量