强化杉木复合混凝土模板的研制

以竹材和杉木为材料,试制了杉木复合混凝土模板,并对影响板材的主要因子进行了分析。结果表明,这种模板的力学性能优于木质混凝土模板而施工性能优于竹胶合板模板。     

木质素-LDPE扭矩流变性能试验研究

研究了影响木质素与低密度聚乙烯(LDPE)共混物在转矩流变仪中的共混最大扭矩、平衡扭矩以及达到平衡扭矩时间的各个因素。结果表明,木质素、淀粉降解母料、增塑剂、温度对扭矩有明显影响;在LDPE为100份时,木质素55份,淀粉母料25份,增塑剂占木质素7.5%,增容剂10.5份,温度为180℃,共混物塑化性能最优。     

小径竹重组结构材性能影响因子的研究

以南方资源丰富的小径竹为原料研究了小径竹重组结构材制造工艺,重点探讨了重组竹结构材的密度,浸胶后竹束的干燥温度,去青与不去青以及竹种(刚竹、淡竹、慈竹、雷竹)对重组竹结构材物理力学性能的影响,并分析了用自行设计的竹材压轧疏解机对小径竹疏解的原理。为高效利用小径竹提供制造工艺依据。     

中国家具业知识产权保护的现状剖析与对策

通过对家具市场中知识产权侵权现象本质的分析,指出中国家具业在关税壁垒取消后必须将知识产权保护放到 更重要的位置,并就知识产权保护中存在的问题提出了一些政策。     

我国南方湿地松木材物理力学性质变异初探

我国南方五省区湿地松木材的密度、晚材率和各项力学强度,随纬度的增加,呈递减状态。纬度与气干容重之间的直线回归方程为:G=1.28—0.027L,相关系数r=0.984.产生此现象的主要原因是,木材的管胞宽度和厚度随着纬度的增加逐渐变窄、变薄。产地的年平均气温和年降水量对湿地松树木的年轮宽度和晚材带宽度影响较大;年轮和晚材带的平均宽度随产地自北向南依次增加,随着山地海拔的升高而减小。     

材性改良研究：Ⅰ.X射线木材密度测定

利用Ｘ射线衍射（Ｄ－ｍａｘ３Ｂ型）改装成直接扫描式Ｘ射线木材密度计，可快速、高效测定木材密度组成，即木材平均密度，平均早材密度，平均晚材密度，最大木材密度，最小木材密度，木材密度梯度和木材密度的变异幅度，为材性改良提供了新手段，本文用Ｘ射线木材密度计测定１７个树种木材密度。     

新型软木原料栓皮槠的采剥,再生试验及理化性能研究

对栓皮槠与栓皮烁树初再生皮在采剥难易、含皮量、再生速度、再生率及其栓皮在外观、质量、化学组成的差异及地理差异等方面进行的对照试验结果表明：栓皮槠栓皮质量好，再生能力强，产皮厚，剥皮工效高，经济效益好，是优良栓皮树种，可用来改造我国的栓皮烁林。     

利用遥感技术预测人工林木材性质及其产品价值的初探

阐述了遥感技术在森林树冠参数提取以及林木冠层与木材结构、性质间的关系研究现状,分析了树冠冠层和木材性质二者之间潜在的关系,探讨了利用高空间分辨率遥感卫星影像(QuickBird)数据分析林木树冠冠层特征的方法,提出了遥感树冠因子与木材性质间的关系模型的构想,进而进行木材性质的预测和产品经济价值的评价。     

Prediction of bending properties for structural glulam using optimized distributions of knot characteristics and laminar MOE

This study established a prediction model for bending properties of glued-laminated timber (glulam) using optimized knot and modulus of elasticity (MOE) distributions of lumber laminate as the main input variables. For this purpose, knot and MOE data were investigated for all pieces of lumber that were prepared for glulam manufacturing, and statistical distributions of knot size, knot number in one lumber, and MOE of each laminate were optimized as distribution functions. These knot and MOE data were used as input variables in the prediction model for bending properties, and were also used in generating virtual glulam using the inverse transform method. Prediction of bending properties for glulam was carried out using the transformed section method, which is partially provided in ASTM D 3737 (Annex A4). Predicted values were compared with those from full-scale four-point bending tests for 60 six-layered glulams with 10 different laminar combinations. Finally, the allowable bending properties of glulam for each specific laminate combination were determined by calculating the fifth percentile of the modulus of rupture and the average modulus of elasticity from virtual test results of more than 1000 virtual glulams. From the results of this study, predicted bending properties for glulam and their distributions could be used for structural design in both allowable stress design and limit state design.     

Compressive deformation of wood impregnated with low molecular weight phenol formaldehyde (PF) resin II: effects of processing parameters

To obtain high-strength phenol formaldehyde (PF) resin-impregnated compressed wood at low pressing pressure, the effects of resin content, preheating temperature, pressing temperature, and pressing speed on the compressive deformation of oven-dried low molecular weight PF resin-impregnated wood was investigated. With an increase of PF resin content, the Youngs modulus of the cell wall perpendicular to the fiber direction decreases, and collapse-initiating pressure decreases linearly with the Youngs modulus. This indicates that the occurrence of cell wall collapse is strain-dependent. By increasing preheating temperatures, the collapse-initiating pressure increases due to the increment of the Youngs modulus of the cell wall. An increase in pressing temperature results in the thermal softening of the cell wall and causes collapse at a lower pressure. The wood is compressed effectively despite accelerated resin curing. The pressing speed significantly affects the viscoelastic deformation of the cell wall and the wood is well deformed with decreasing pressing speed, although the differences in density and mechanical properties are relatively small after a pressure-holding period of 30min. In all the parameters examined in this study, the Youngs modulus and bending strength increase with increasing density.