共查询到18条相似文献,搜索用时 234 毫秒
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本文就中条山油松株内幼龄材与成熟材材性差异的比较研究,讨论对幼龄期划分的依据。根据木材解剖特征、物理力学性质的径向变异规律,确定其幼龄期为14年。随着树干高度的增加,油松木材幼龄期逐渐缩短、株内幼龄材范围及所占断面上的比例变小。株内幼龄材与成熟材材性差异显著。幼龄材管胞长度短、直径小,胞壁薄,微纤丝角度大,生长轮较宽,晚材率低,浸提物含量高,基本密度较大。幼龄材的力学强度远远小于成熟材。 相似文献
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为了满足对林产品日益增长的需要,未来的木材供应将大部分来自人工栽培的速生树种林木。这些林木采伐周期短,因而较正常材含有较多的幼龄材。美国林产品实验室对幼龄材单板的分等方法及对LVL结构性能的影响进行了研究。采用速生的 相似文献
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本文研究了广西人工林马尾松木材性质的变异及幼龄材与成熟材的差异。结果表明 ,幼龄材与成熟材的分界年龄在 14 16a ,解剖性质在径向上的变异规律为 :射线比量、树脂道比量、胞壁率、胞腔直径、胞壁厚、管胞长度、管胞宽度和晚材壁腔比是自髓心向外呈递增趋势 ,管胞比量和晚材率为递减趋势 ,早材壁腔比和早材腔径比则近似于一条直线。方差分析结果表明 :树脂道比量、胞壁率、胞壁厚、管胞长度和管胞宽度 ,幼龄材与成熟材差异达显著或极显著水平。 5项木材物理力学性质均为成熟材高于幼龄材 ,且均达差异显著水平。木材性质间的相关分析表明 :木材基本密度与管胞长度、管胞宽度、射线比量、树脂道比量、胞壁率呈显著的正相关关系 ,木材气干密度与抗弯强度、抗弯弹性模量、顺纹抗压强度也呈显著的正相关关系 相似文献
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刺楸木材幼龄期划分的探讨 总被引:1,自引:0,他引:1
以安徽琅琊山天然林内的刺楸木材为材料,在研究其解剖特征和物理力学性质变异物基础上,着重探讨刺楸木材幼龄期。结果发现:根据不同材性指标变异模式划分的幼龄期不相同。,以纤维长度和微纤丝角的径向变异规律划分出的幼龄期为17年,以基本密度和顺纹抗压强度的径向变异规律划分出的幼龄期为15年;根据同一材性指标不同高度材性变异模式划分的幼龄期也有差异。其总体趋势为:随着树干高度增加,其幼龄期略为变短。 相似文献
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随着天然林保护工程的实施 ,我国木材资源结构正在进行由主要利用天然林木材到利用人工林木材的转变 .由于人工林木材所含幼龄材比例相当高 ,木材资源结构的变化反过来必将对我国的木材加工工业及林产品工业带来一系列影响 .该文综述了我国木材资源的现状 ,比较了人工林幼龄材与天然林成熟材的木材基本特性 ,探讨了人工林木材性质特征与营林培育的关系 ,阐述了木材质量与不同最终用途之间的关系 ,并对加强开展人工林木材性质的研究提出了几点建议 相似文献
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Effects of radial growth rate on selected indices for juvenile and mature wood of the Japanese larch 总被引:1,自引:0,他引:1
To examine the differences between juvenile and mature wood, 12 aged sample trees from two areas of Nagano Prefecture were harvested; and the radial development of tracheid length, the ring density, and the relation of the radial growth rate (observed by ring width) with some selected indices of ring structure were investigated. The results proved that the radial variation of tracheid length with ring number can be described by a logarithmic formula, and both plantations reached the demarcation of juvenile and mature wood at age 18. With the segmented regression method, we also analyzed radial variation of mean density and found that the demarcation of juvenile and mature wood was at age 15 for sample trees from Saku and at age 21 for those from Yabuhara. By using the results of estimates from juvenile and mature wood based on ring density, we found that high growth rates resulted when producing lower-density wood during the juvenile period, but these rates did not occur during the mature period. The basic reason for this phenomenon is the variation in patterns of earlywood and latewood in juvenile and mature wood, respectively. This result advised us that when managing plantations of Japanese larch it is necessary to take different measurements at different growth periods. 相似文献
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幼龄材范围的确定及树木生长速率对幼龄材生长量的影响 总被引:8,自引:1,他引:8
本文以杉木、日本落叶松的人上林和天然林木材为对象,选择y=a+blnx回归模式。利用其管胞特征因子随年轮数的变化,研究划分幼龄材年轮界限的最适因子,并就生长速率对幼龄材生长量的影响进入了探讨。结果表明:杉木和日本落叶松的人工林及天然林木的管胞特征值在径向水平上的变化均遵循y=a+blnx模式,尤其管胞长度与年轮数回归的相关系数R均达0.98以上;管胞长度与管胞宽度及纤丝用相比,遗传率最大,随年轮数变化的模式最稳定,是划分幼龄材界限的最佳因子,由此得出杉木人工林幼龄材界限年轮为20-22(距髓心距离为12.9-13.2cm)、天然林为16-18(4.1-4.5cm),日本落叶松人工林为19-23(8.7-10.5cm)、天然林为23-24(2.9-3.1cm);幼龄材生长量与树木生长速率成正比。 相似文献
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杉木人工林幼龄材与成熟材木材干缩性能指标的比较 总被引:3,自引:0,他引:3
测定了建始长岭岗林场 32年生杉木人工林的干缩性能指标 ,并分析了各指标在立地与木材径向部位上的差异 ,结果表明 :来自两样地的木材干缩性能指标均无明显差异 ;木材在径向部位上按 16年为界划分的成熟材与幼龄材相比较 ,全干状态和气干状态下的径向干缩率均具有极显著差异 (α =0 0 1) ,全干和气干体积干缩率、全干和气干差异干缩、全干弦向干缩率等指标的差异达显著水平 (α =0 0 5 ) ,气干弦向干缩率在径向部位上差异不显著。 相似文献
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Tekat Dwi Cahyono Wayan Darmawan Eka Novriyanti 《Wood material science & engineering》2020,15(3):155-162
ABSTRACTA study to determine the quality of laminated veneer lumber (LVL) from samama wood (Anthocephalus macrophyllus) was carried out. Samama is a fast-growing endemic wood in eastern Indonesia. Factorial of three factors in RAL design was used to investigate the influence of veneer thickness, juvenile proportion and veneer lay-up to the quality of the resulted samama LVL. The veneer thicknesses were 1.5 and 3.0?mm. Juvenile proportions were arranged in five levels, which were 100% of juvenile veneer, 100% of mature veneer and combination of both juvenile and mature with juvenile proportion of 14%, 43% and 71%. Two veneer lay-up used in this study were loose side met loose side and tight side met loose side. The result of the study showed various specific gravity of LVL by different proportions of juvenile. This factor also affected the other physical traits. Shear strength of the LVL was equal to the solid wood, yet MOE and MOR were affected by juvenile proportion and veneer lay-up. LVL developed from 100% of mature veneer exhibited the highest MOE and MOR, yet no significant difference was noted in MOE and MOR between LVL 100% of juvenile and other tested juvenile proportions. 相似文献
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In our investigation we studied fiber lengths and the transition age from juvenile to mature wood in Acer velutinum Boiss. For this purpose, samples from three normal maple trees at a Noshahr site in northern Iran were selected. Disks were cut at breast height. Test samples were taken along a radial direction from the pith to the bark, accounting for every ring during a 48-year period. We used the Franklin method to distinguish between fibers of juvenile and mature wood. The results show that the fiber length increased along the radial direction from the pith to the bark. The transition age between juvenile and mature wood was determined at the 14th annual ring from the pith. 相似文献
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Jun Tanabe Akira Tamura Jyunichi Ohshima Kazuya Iizuka Shinso Yokota 《Scandinavian Journal of Forest Research》2017,32(1):39-44
With emphasis on tree breeding for wood quality in Picea jezoensis, we aimed to evaluate radial and between-family variations in the microfibril angle (MFA) of the S2 layer in the latewood tracheids in 10 open-pollinated families of 43-year-old P. jezoensis trees. In addition, the relationships between MFA/wood density with the modulus of elasticity (MOE) or modulus of rupture (MOR) were investigated. Significant differences in MFA between families were found from the pith toward the bark. MFA showed higher values around the pith area, although some families showed relatively lower values than others around this area. In addition, due to a larger coefficient of variations of MFA near the pith, the potential for juvenile wood MFA improvement may be greater compared with mature wood. MOE was correlated with MFA in juvenile wood and with wood density in mature wood, whereas MOR was mainly correlated with wood density at radial positions in both woods. Therefore, to improve the MOE and MOR of P. jezoensis wood, both MFA and wood density would be factors to consider in both juvenile and mature woods. On the other hand, there are indications that, only wood density would be an important criterion for improving mature wood properties. 相似文献
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S. Pramod 《Journal of Sustainable Forestry》2013,32(7):661-673
The anatomical changes occurring during transition from juvenile to mature wood were studied in the branch and main trunk of Leucaena leucocephala. To confirm the wood maturity in the 5-yr-old tree, the anatomical features were compared with the adult wood collected from the main trunk of a 15-yr-old tree. In both the branch and wood of the trunk, most of the anatomical features—such as increase in dimensions of fibers and vessel elements, and decrease in frequency of vessel elements and rays—were gradual during radial growth from pith to periphery. A noticeable anatomical change is observed in the transition of triseriate rays to multiseriate rays in the region of wood which is about 5.5 cm away from the pith. The ray dimensions and anatomical features of other elements from the periphery of the branch and 5-yr-old trunk xylem match with that of 15-yr-old main trunk wood. This indicates that in both the branches and main trunk of Leucaena, transition from juvenile to adult or mature wood occurs after the trees have attained 14 cm radial growth. 相似文献