提高石膏刨花板耐老化性能的进一步研究

本文研究了矿渣硅酸盐水泥对石膏水化性能的影响;水泥加入量与石膏硬化浆体力学强度的关系;石膏中掺入3～12%的矿渣硅酸盐水泥时,对石膏刨花板静曲强度和耐水性能的影响;石膏刨花板表面涂建筑涂料后,对其耐老化性、耐水性以及静曲强度的影响。     

木材水抽提物对石膏及石膏刨花板的凝固及其性能的影响

本文研究了在商用缓凝剂(Retardan P)的存在下木材水抽提物对石膏浆料和石膏刨花板凝固时间及其强度的综合影响。结果表明:1.木材水抽提物能使石膏浆料和石膏刨花板产生缓凝,并导致强度下降,其影响程度与树种和石膏质量均有关系。2.木材水抽提物能加强Retarda P的缓凝作用,并且用两者交互作用下石膏浆料的凝固时间,可以指示石膏刨花板的凝固时间。3.石膏刨花板的静曲强度受刨花树种的影响,但缓凝剂的添加量却无显著作用。     

有机硅防水剂对石膏刨花板性能的影响

主要讨论了添加有机硅防水剂对石膏刨花板物理力学性能的影响。研究表明,添加适量的有机硅防水剂能提高石膏刨花板的防水性能,并对板的内结合强度、静曲强度和弹性模量有一定的改进。     

石膏刨花板生产工艺与发展前景

介绍了石膏刨花板（GPB）的性能、发展概况,论述了石膏粉及石膏刨花板生产工艺和特点,分析了石膏刨花板工业的发展前景。     

几种树种木材制造石膏刨花板的适应性

本文论述了挪威云杉、山杨、白桦和柞木及山杨、白桦、柞木的混合刨花制造石膏刨花板的适应性。结果表明,在工艺参数相同的情况下,木材密度越大的树种制成的板材强度越低,挪威云杉板强度最大,山杨板次之,柞木板极低。挪威云杉和山杨是制造石膏刨花板的优质树种。改变木膏比、刨花体积和对刨花进行水抽提均没有使白桦和柞木制成合格的石膏刨花板。混合刨花干扰石膏刨花板的凝固时间,致使板子强度低劣,在生产中应予避免。     

无胶刨花板静曲强度影响因子

为探讨化学试剂活化处理木质刨花板的方法,采用氧化剂(硝酸)和特制交联剂处理柞木刨花,在特定工艺条件形成化学键制成无胶刨花板。结果表明:氧化剂含量和交联剂含量显著地影响无胶刨花板静曲强度;随着氧化剂含量和交联剂含量的增加,无胶刨花板静曲强度呈递增趋势,当氧化剂浓度为1.3%,交联剂含量为5%时,静曲强度达到最大为8.72 MPa。     

提高再生刨花板性能的若干途径探讨

对提高再生刨花板物理力学性能的若干途径进行的研究结果表明：提高再生刨花板密度有助于其物理力学性能的改善;增加施胶量对再生刨花按常规工艺所制刨花板的静曲强度和内结合强度均有改善,但静曲强度仍未达到国标要求;如果将超过５０％的原生刨花加入到再生刨花中去,所制刨花板可以达到国标ＧＢ／Ｔ４８９７－９２一级品的要求。     

石膏刨花板研究综述

石膏板具有优异的抗火性能,在轻型木结构中主要用作楼板和墙板的抗火覆面板。通过在石膏基体中复合木材刨花等植物纤维制备石膏刨花板,可不改变板材原有的生产制备工艺而提高其力学性能。生产石膏刨花板的石膏原料主要来源于工业石膏,刨花主要为农业或工业副产品,兼顾变废为宝和材料成本可控等优势,因此具有广泛的应用前景。文中综述了石膏刨花板中不同缓凝剂的作用机理、不同植物纤维类型的增强效果、后处理方式和外加剂对板材性能改善的机理等板材制备工艺,以及石膏刨花板的物理力学性能和抗火性能等研究现状,指出目前土木工程用石膏刨花板存在的不足及需进一步研究的方向,可为石膏刨花板的进一步系统研究以及工程应用提供参考。     

木质与蒿杆混合刨花板的制备

利用蒿秆刨花代替部分木质刨花生产刨花板,试验采用正交试验方法,以刨花板的吸水厚度膨胀率、内结合强度、表面结合强度、静曲强度及握螺钉力等力学性能为评价指标,优化木质刨花与蒿秆刨花混合刨花板的制备工艺。正交试验结果表明,木质刨花与蒿杆刨花原料配比5:5,热压工艺为:热压温度155℃,热压时间40s/mm,施胶量12%。所制备的板材的吸水厚度膨胀率6.31%、静曲强度32.1MPa、握螺钉力1.84kN、内结合强度0.92MPa、表面结合强度0.82MPa。     

石膏刨花板的密度、木膏比和水膏比与其性能关系的初步研究

本文通过一系列的工艺试验对石膏刨花板的密度、木膏比和水膏比与其性能的关系进行了初步的研究。结果表明：1．密度的增加会导致石膏刨花板强度的显著增加；2．提高木膏比会使静曲强度等随之上升，但对弹性模量和平面抗拉强度影响不大；3．水膏比在0．30－0．40范围内对板子性能无显著影响；4．三个因子间无交互作用。     

Improvement on the properties of gypsum particleboard by adding cement

Gypsum particleboard (GPB) has high thickness swelling (TS), high water absorption (WA), and low mechanical properties compared with cement-bonded particleboard. The properties of GPB were improved by adding cement. The experimental results showed that GPB with the added cement had good physical and mechanical properties compared with those of gypsum particleboard with no added cement. The TS and WA of gypsum particleboard with added cement were reduced by 10%. The mechanical properties of GPB, such as internal bond strength (IB), modulus of rupture (MOR), and modulus of elasticity (MOE), increased when the GPB was made with added cement. The properties of GPB improved relative to the quantity of cement added. With an increase of cement content from 5% to 10%, the TS and WA were reduced, and the IB, MOR, and MOE were increased. In contrast, the TS and WA increased and the IB, MOE, and MOR decreased when the cement content was increased from 15% to 30%. Thus the physical and mechanical properties of GPB were successfully improved when the added cement content was 10%.An outline of this paper was presented at the 47th Annual Meeting of the Japan Wood Research Society in Kochi, April 1997     

脱硫石膏刨花板制造工艺的初步研究

脱硫石膏为燃煤电厂烟气脱硫处理的一种化学副产物。本文分析讨论了脱硫石膏的性能及其与木材刨花混合制造石膏刨花板的可行性,初步探讨了脱硫石膏刨花板的制造工艺。结果表明,脱硫石膏用于制造石膏刨花板完全可行,其性能优于天然石膏生产的石膏刨花板,以木膏比０．１８生产的石膏刨花板材的各项性能均优于木膏比０．２２生产的板材。     

一年生植物作为石膏刨花板原料的适应性

本文叙述了使用德国及中国建筑石膏和甘蔗渣、竹材、棉秆、麦秸、稻草等一年生植物生产石膏刨花板的适应性,分析了石膏的成分和性能,测定了缓凝剂和植物原料对石膏水化的影响。制板时采用不同的配方和板的密度,以评价一年生植物的使用价值。在所使用的原料中,甘蔗渣是良好的石膏刨花板原料。     

Effect of buffers on gypsum particleboard properties

The paper recounts how buffers affect the physical and mechanical properties of gypsum particleboard (GPB) and the initial curing time (IC) of gypsum. The acidic buffers were better than alkaline buffers for prolonging the IC of gypsum and affecting the properties of GPB. Weak acids were advantageous for curing gypsum. When suitable amounts of citric acid and trisodium citrate were added, high performances could be achieved and the IC of gypsum could be prolonged to about 2h. When alkaline buffers such as sodium carbonate were added, the 1C of gypsum was still short but the internal bond strength (IB), modulus of elasticity (MOE), and modulus of rupture (MOR) of GPB were obviously decreased. Citric acid was the best among the four buffers used; and the GPB had a good IB, MOE, MOR, and adequate IC when citric acid of 0.1% was added. Sodium carbonate was not suitable owing to low performance and short IC. Gypsum curing is an endothermic reaction.Part of this paper was presented at the 11th Annual Meeting of the Chugoko Skikoku Branch of the Japan Wood Research Society, Matsue, September 1999     

Preparation of composite board using foil-laminated and plastic-laminated liquid packaging paperboard as raw materials

We investigated the properties of composite board formed using base sheets of aluminum foil-laminated and polyethylene (PE) plastic-laminated liquid packaging paperboard (LP) as an alternative to recycling these items in wastepaper stream. Boards of different specific gravities ranging from 0.55 to 0.75 were made by pressing shredded LP blended with urea resin having resin content of 6%–10% at 180°C. Subsequently, we also prepared mixed particleboard [wood (WD) particles and LP mixed], three-layered particleboard (LP as the middle layer, WD in the upper and lower layers), and wood particleboard all having resin content of 10% and various specific gravities. Static bending and internal bonding strengths and thickness swelling of the specimens were determined to examine their properties. At the same specific gravity, the properties of LP particleboards were affected by their resin content. The modulus of rupture (MOR), modulus of elasticity (MOE), and internal bond strength of the LP particleboards increased with increasing specific gravity of the boards at the same resin content, but thickness swelling of the LP particleboards showed the reverse trend. The average MOR of the LP particleboards approximated that of the mixed particleboards and was greater than those of the three-layered particleboards and wood particleboards. Internal bond strength and thickness swelling of the LP particleboards were smaller than those of the other particleboards. Based on the above observations, we deemed that LP can be made into composite boards with adequate properties either alone or mixed with wood particles.     

Properties of gypsum particleboard reinforced with polypropylene fibers

This paper details the influence of the length and content of polypropylene (PP) fibers on the physical and mechanical properties of gypsum particleboard (GPB). The length and amount of PP fibers added had a significant effect on the internal bond strength (IB) and the modulus of rupture (MOR) of GPB. The highest IB value was shown at 9 mm length and 9% content of PP fibers. The MOR was highest when the board was made with PP of 12 mm fiber length and 12% content. Suitable contents of PP fibers were advantageous in that they reinforced the properties of GPB so it achieved high performance. In contrast, a high content of PP fibers reduced the IB, MOR, and modulus of elasticity (MOE) of GPB. The thickness swelling was reduced with an increase in PP length and content. It was concluded that the combination of 12 mm length and 12% content or 3mm length and 9% content was optimum for producing good performance of GPB.Part of this paper was presented at the 50th Annual Meeting of the Japan Wood Research Society, Kyoto, April 2000     

相思、桉树刨花板两步法模压工艺的研究

以相思、桉树2树种的木材加工剩余物为原料,研究两步法刨花模压板的制造工艺以及各工艺参数与板材性能的关系.结果表明:以刨花预压制坯再进行热压模压的两步法刨花模压工艺,制备具有立体结构的刨花模压装饰板材的技术路线是可行的.相思和桉树2树种的对比试验研究结果表明:相思刨花模压制品性能优于桉树刨花模压制品.按选用工艺参数,相思原料的刨花模压制品性能完全达到相关国家标准.在工艺参数与板材性能相关性研究中,板材密度对模压板表观性能、内结合强度、静曲强度等板材性能具有显著性影响;热压模压温度和热压模压时间对板材吸水厚度膨胀率有较显著影响.施胶量增加,板材的各种物理力学性能都会提高,尤其对吸水厚度膨胀率影响最为显著.     

半干法石膏纤维板工艺研究：Ⅰ.原料配比,密度等对板材性能的影响

本研究是建立在我国资源和工业技术基础之上,探讨利用木纤维以半干法制造石膏纤维板（ＧＦＢ）的生产工艺;提出了半干法石膏纤维板的工艺方案,并建立了密度、木膏比、水膏比与板材性能的数学模型。结果表明：密度（Ｄ）增加,板材力学性能显著提高,木膏比（Ｗ／Ｇ）、水膏比（Ｈ／Ｇ）有效强的交互影响。木膏比增大,板材反弹率和吸水厚度膨胀率（ＴＳ）增加,纤维形态,蒸煮工艺对板材静曲性能无显著影响,纤维形态对内结合强度