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对毛白杨木材浸注脲醛树脂胶制备压缩改性木材中的主要影响因素及相关工艺参数进行初步探索与试验,并在实验结果基础上讨论了各因素对制作工艺及其性能的影响。结果表明:①影响板材性能由主到次因素的顺序为压缩率-热压时间-热压温度;②在试验参数范围内较好的工艺参数为热压温度140℃、热压时间20min、压缩率50%;③在试验参数范围内热压时间对试件增重率、含水率、树脂留存率影响显著,而热压温度对试件增重率影响显著,压缩率对试件密度、变形回复率、吸水厚度膨胀率影响显著。 相似文献
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以人工林杉木木材为研究对象,采用全因子试验设计,通过控制不同热压温度(160、180、200℃)、热压时间(20、30、40 min)、压缩率(30%、40%、50%)3个工艺参数,对杉木进行压缩密实化改性,分析不同工艺参数对木材力学性能、微观形貌、细胞壁力学性能和结晶度的影响,进而筛选出优选工艺。结果表明:在热压温度为180℃、压缩率为50%、热压时间为40 min的工艺条件下,制备的密实化木材性能较优,其抗弯强度、抗弯弹性模量、顺纹抗拉强度和硬度分别为130.4 MPa、12338 MPa、113.1 MPa和1631 N,相对于未处理材分别提高112%、113%、44%和55%。扫描电镜观察结果表明:早材细胞几乎均被压溃,并沿着木射线方向出现一定规律的褶皱,而晚材细胞部分出现压溃,较大部分则保持原有的腔体结构。密实化木材细胞壁的硬度和弹性模量比未处理材分别增加了16.7%和45.7%。压缩处理后,木材的结晶度有所增大,未处理材和压缩材的结晶度分别为46%和53%。 相似文献
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以白橡锯材为研究对象,采用热压机对其进行热压干燥处理,系统研究了热压温度、热压压力和试件宽度等因素对白橡木材干燥特性、颜色、吸湿性和尺寸稳定性的影响规律,获得了优化的热压干燥工艺。研究结果表明:采用热压干燥法可以实现白橡木的快速高效干燥,随着热压温度的升高,木材干燥速度显著加快,颜色逐渐加深,热压压力和试件宽度对干燥速率和颜色的影响不明显;热压干燥可以显著减小白橡木材的平衡含水率(EMC)和湿胀率,提高其尺寸稳定性,且随着热压温度的升高,白橡木材EMC和湿胀率降低,热压压力和试件宽度对木材EMC和湿胀率无明显影响;与对照材相比,热压干燥白橡木材的EMC降低9.97%~33.67%,径向和弦向湿胀率分别降低8.54%~33.96%、11.26%~30.02%;白橡木材的优化热压干燥条件为:热压温度为140~150℃热压压力为0.1 MPa,板材宽度为自然宽。 相似文献
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酚醛树脂处理杨木、杉木尺寸稳定性分析 总被引:17,自引:5,他引:17
采用酚醛树脂浸渍处理人工林杨木、杉木,然后通过热压定型工艺制得表面密实化木材。对其尺寸稳定性的分析结果表明:处理试材的增重率、抗胀率和阻湿率随树脂浓度的增加而成比例增大,弦向和径向干缩率明显降低,在树脂浓度较低时变化较大,当达到一定量时变化趋于稳定。就压缩变形恢复率而言,当树脂浓度超过10%,压缩变形恢复率很小,说明表面密实化木材的压缩变形几乎被固定。 相似文献
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采用高强度玻璃纤维对竹环氧集成材进行改性试验。结果表明:当采用热压压力为1.4 MPa、玻璃纤维均布密度为7.5 mm/根、热压时间为1.0 min/mm(厚)、热压温度为145℃的生产工艺,环氧集成材压缩强度最佳;当采用热压压力为1.4 MPa、玻璃纤维均布密度为5.0 mm/根、热压时间为1.2 min/mm(厚)、热压温度140℃的生产工艺,环氧集成材层间剪切性能最佳。 相似文献
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水蒸汽处理对五树种压缩变形恢复率力学性能影响的研究 总被引:1,自引:0,他引:1
采用180℃水蒸汽、处理时间1—12min对五树种压缩试件进行处理,考察处理时间对压缩变形恢复率及对木材试件力学性能的影响,并探讨了该条件下影响压缩木材变形固定的主要因素。 相似文献
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Youke Zhao 《Journal of Wood Science》2017,63(3):209-215
As a follow-up report, the pre-treatment by compression for wood drying was systematically studied in terms of the reduction of moisture content (MC), the recovery rate (RR), and mechanical properties of wood compressed at different MC conditions. The results showed that MC after compression on water-saturated wood determined the critical value of MC before compression which were about 84 and 105% at a compression ratio of 60 and 40% for Poplar and Chinese fir, respectively. Beyond the critical value, MC after compression remained constantly at about 84% and decreased slightly from 105% for Poplar and Chinese fir, respectively. The MC reduction decreased with the decrease of MC before compression. The MC reduction was rather effective when the MC before compression was higher than the critical value and was recommended to pre-treat for the effectiveness of MC reduction. In addition, after the recovery, the wood volume and mechanical properties were well retained for the wood compressed at all MC conditions which were above fiber saturation point (FSP) before and after compression. Therefore, the pre-treatment by compression is viable in terms of the RR and mechanical properties at rather broad MC conditions above FSP. Moreover, the compression force needed for treatment was almost same at these MC conditions. 相似文献
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压缩变形特征是压缩木研究的重要内容。文中针对木材湿热软化径向压缩变形,从压缩变形的影响因素、压缩变形位置对其力学性能的影响和压缩变形固定3个方面综述国内外研究进展,包括树种、生长轮构造和压缩工艺对木材压缩变形的影响,压缩变形位置对力学性能的影响,以及热处理对压缩变形的影响,指出木材湿热软化径向压缩研究中关于压缩变形需要继续解决的主要问题以及发展方向,以期为湿热软化径向压缩木材的进一步研究和应用提供参考。 相似文献
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木材顺纹压缩弹塑性和PDR(永久变形率)变化规律及机理研究是攻克木材顺纹压缩与多维弯曲技术的核心.从木材的树种、密度、软化处理条件、化学组分和相对结晶度以及压缩速度几个方面,分析了木材顺纹压缩过程中这些因素对木材顺纹压缩率和PDR的影响机制. 相似文献
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Effects of semi-isostatic densification of wood on the variation in strength properties with density
The variation in strength properties with density was compared between semi-isostatically densified and non-densified wood.
Strength properties were compared with published data from earlier studies using other methods for densification. Small clear
specimens of eight species were analysed for compression strength in axial, radial and tangential direction, three-point bending
and Brinell hardness. After densification, all tested strength properties increased with density, but especially strength
perpendicular to grain became lower than expected from the density of non-densified wood. Strength of densified wood relative
to what could be expected for non-densified wood of similar density was denoted as ‘strength potential index’. For axial compression
strength and bending strength, strength potential index of individual wood species varied between 0.7 and 1.0, i.e. densified
wood is slightly weaker than what could be expected from its density. Strength potential index was lower for properties much
determined by strength perpendicular to grain. In radial direction, densified wood was rubbery with low modulus of elasticity
and nearly no proportional limit or modulus of rupture. Generally, wood was apparently weakened in proportion to the degree
of compression in respective direction. Strength potential index also increased with increasing original density of the species. 相似文献
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Compression wood is formed by the living tree to compensate for external loads. It creates wood fibers with properties undesirable in sawn products. Automatic detection of compression wood can lead to production advantages. A wood surface was scanned with a spectrometer, and compression wood was detected by analyzing the spectral composition of light reflected from the wood surface within the visible spectrum. Linear prediction models for compression wood in Norway spruce (Picea abies) were produced using multivariate analysis and regression methods. The resulting prediction coefficients were implemented in a scanning system using the MAPP2200 smart image sensor combined with an imaging spectrograph. This scanning system is capable of making a pixelwise classification of a wood surface in real time. Classification of one spruce plank was compared with analysis by scanning electron microscopy, showing that the automatic classification was correct in 11 of 14 cases. 相似文献
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Julien Ruelle Jacques Beauchêne Hiroyuki Yamamoto Bernard Thibaut 《Wood Science and Technology》2011,45(2):339-357
Growth strains were measured in situ in nine trees of three species from a French Guiana tropical rainforest in a clearly
active verticality restoration process. The aim was to detect tension wood within the samples. Wood specimens were cut in
the vicinity of the growth strain measurements in order to determine the microfibril angle and some mechanical and physical
properties. As suspected, tensile growth strain was much higher in tension wood zones, as shown by the slightly higher longitudinal
modulus of elasticity. Conversely, tension wood showed reduced compression strength. Longitudinal shrinkage was much higher
in tension wood than in opposite wood. Clear relationships between the microfibril angle and longitudinal properties were
noted in comparison (i) with those observed in gymnosperm compression wood and (ii) with expected relationships from the organization
of wood fibres cell wall structure. 相似文献
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人工林杉木和杨树木材物理力学性质的株内变异研究 总被引:4,自引:0,他引:4
按照中国国家标准研究杉木和I-214杨树木材的抗弯弹性模量、抗弯强度、顺纹抗压强度和密度,同时按照日本国家标准研究2个树种的顺纹抗剪强度.结果表明:杉木的抗弯强度、顺纹抗压强度和密度由胸高直径处向上呈波浪形增加,抗弯弹性模量则稳定降低,但不同高度间杉木的物理力学性质没有显著差异;近树皮处木材的物理力学性质高于近髓心处木材,并有极显著差异.对于I-214杨树,只有抗弯弹性模量从髓心到树皮逐渐增加,其他的物理力学性质,最小值在从髓心到树皮的过渡区,最大值在近树皮处,从髓心到树皮,杨树的物理力学性质有极显著的差异.杉木和杨树的径面顺纹抗剪强度从髓心到树皮有极显著差异,并且近树皮的高于近髓心的木材,而弦面顺纹抗剪强度从髓心到树皮没有显著差异.木材密度与力学性质有很好的线性相关关系,木材密度是一个很好的力学强度的预测手段. 相似文献
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Shakti S. Chauhan Monika Sharma Jimmy Thomas Luis A. Apiolaza David A. Collings John C. F. Walker 《Annals of Forest Science》2013,70(4):439-449
? Introduction
There has been an increasing interest in very early selection of radiata pine to reduce the breeding cycle for solid wood products. For such selection, new approaches are required to assess wood quality in wood from very young stems.? Methods
Nursery seedlings of clones of radiata pine were grown in leant condition using two leaning strategies for 18–20 months. Opposite wood and compression wood were isolated from the leaning stems and tested for dynamic modulus of elasticity, density, longitudinal shrinkage, volumetric shrinkage and compression wood area using new methods evolved for testing small size samples quickly and reliably. The methods were tested for their efficiency in differentiating clones by their wood properties.? Results
Leaning of stems provided distinct opposite and compression wood for testing. Automated image analysis method used for compression wood area assessment was found to be a quick and effective method for processing large number of samples from young stems. Compression wood was characterised by high basic density, high longitudinal shrinkage and low volumetric shrinkage than that of opposite wood. Acoustic velocity in opposite wood had a strong negative association with longitudinal shrinkage. The study signifies the importance of preventing mixing of opposite wood with compression wood while assessing wood quality in young stems thus making leaning a critical strategy. The comparison of wood properties of opposite wood revealed significant differences between clones. Opposite wood of the clone with the lowest dynamic modulus of elasticity exhibited the highest longitudinal shrinkage.? Conclusion
Significant differences in measurable wood properties between clones suggest the prospects of early selection for solid wood products. 相似文献20.
Telewski FW 《Tree physiology》1989,5(1):113-121
Wood produced during flexure in one-year-old leaders of Abies fraseri (Pursh) Poir. (Fraser fir) was analyzed anatomically and radio-densitometrically. More xylem cells were produced in stems subjected to flexing than in stems that were not flexed. The lumens of tracheids produced in response to flexure were smaller than the lumens of tracheids in normal wood. This was manifest as an increase in the cell wall area/cell lumen area ratio. Microfibril orientation in flexure-induced wood approached the less extreme values found in compression wood. The growth ring composed of flexure-induced wood also had a greater density than normal wood. Compression wood, as defined by cellular characteristics observed in transverse section, was absent in flexed stems. Detailed analysis of the anatomical structure, wood density and biomechanical properties of flexure-induced wood indicated that it has more in common with compression wood than with normal wood. 相似文献