阿拉伯半乳聚糖在木材矿化中的应用

N. Kilyusheva, V. Danilov, A. O. Belyaev, A. Ayzenshtadt
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摘要

以阿拉伯半乳聚糖为基础的有机悬浮液和预机械活化的含硅砂处理植物原料基质,通过矿化来改善松木建筑材料的物理化学和物理力学特性的配方和技术解决方案已经开发出来并得到科学证实。从落叶松木材中分离得到的天然阿拉伯半乳多糖可作为木材加工中悬浮颗粒聚集沉降稳定性的稳定剂。本文介绍了一系列含硅组分含量不同的实验样品的热效应量热法络合焓的实验数据。结果证实了阿拉伯半乳聚糖作为表面活性剂的高效率。在有机悬浮液浸渍木材样品时,发现植物原料的有机大分子(纤维素、木质素、半纤维素)和矿物成分的二氧化硅之间形成化学键,这有助于后者在木材基体结构中的固结。含有阿拉伯半乳聚糖和二氧化硅纳米颗粒的木材表面矿化可以增加密度和硬度,并获得疏水性和抗氧化降解的性能。这表明使用这种组合物石化木材的可能性。给出了络合过程的动力学描述,建立了络合物在水介质中长期稳定存在的条件。结果表明,以合理选择的成分对木材进行悬浮液处理24小时,可使植物原料的密度提高10%,纤维强度提高80%,布氏硬度提高3,4倍。在高压灭菌器模式下,用类似的悬浮液浸渍木材样品(在1,35…1,40 MPa的超压力下)显著地加强了植物原料的矿化过程。因此,在24小时的时间内,木材的密度增加了70%,纤维强度增加了91%,布氏硬度增加了3.5倍,吸水率降低了21%。研究发现,用有机成分悬浮液浸渍木材不会导致样品的几何尺寸和质地发生变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Arabinogalactan application for wood mineralization
Formulation and technological solutions aimed at improving the physico-chemical and physico-mechanical characteristics of pine wood construction materials by mineralization of the plant raw materials matrix due to its treatment with an aqueous organomineral suspension based on arabinogalactan and pre-mechanoactivated silica-containing sand have been developed and scientifically substantiated. The natural polysaccharide arabinogalactan isolated from larch wood can act as a stabilizer of aggregation and sedimentation stability of suspension particles for wood processing. Experimental data on the thermal effect calorimetric measurement of the enthalpy of complexation for a series of experimental samples with different contents of a silica-containing component are presented. The results confirming the high efficiency of arabinogalactan as a surfactant have been obtained. The fact of the formation of a chemical bond during the impregnation of wood samples with an organomineral suspension between organic macromolecules (cellulose, lignin, hemicellulose) of vegetable raw materials and silica of the mineral component was found, which contributes to the consolidation of the latter in the structure of the wood matrix. Mineralization of the wood surface with compositions containing arabinogalactan and silica nanoparticles gives an increase in density and hardness, as well as the acquisition of hydrophobic properties and resistance to oxidative degradation. This indicates the possibility of using this composition for petrifying wood. The kinetic description of the complexation process is given, the conditions of stable long-term existence of the complex in an aqueous medium are established. It is shown that the treatment of wood with suspension for 24 hours in a spontaneous mode with a rationally selected composition leads to an increase in the density of vegetable raw materials by 10 %, an increase in strength along the fibers by 80 %, Brinell hardness by 3,4 times. Impregnation of wood samples in autoclave mode with a similar suspension (under an excess pressure of 1,35…1,40 MPa) significantly intensifies the process of mineralization of plant raw materials. Thus, over a time period of 24 hours, the density of wood increases by 70 %, the increase in strength along the fibers was 91 %, Brinell hardness increases by 3,5 times, water absorption decreases by 21 %. It was found that the impregnation of wood with a suspension of the developed organomineral composition does not lead to a change in the geometric dimensions and texture of the samples.
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