麦秸在刨花板生产中的应用

Peng Luo, C. Yang
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引用次数: 1

摘要

麦秸是最丰富、最廉价的农业废弃物之一,据估计,中国每年生产约2.5亿吨麦秸。麦秸主要采用露天焚烧的方式处理,缺乏有效利用,造成严重的环境污染。农业废弃物的处理是综合利用木质纤维素资源和防止环境污染的重要课题。本研究的目的是研究麦秸作为刨花板原料的适用性。以聚异氰酸酯为粘合剂,对酚醛树脂进行改性,制备麦草刨花板。采用正交试验设计,研究了热压温度、热压时间、树脂用量、蜡用量对麦草刨花板力学性能和浸水性能的影响。结果表明,热压温度是主要的影响因素。机械性能和浸泡性能随着热压温度的升高而改善,并在160℃时达到最高点。热压时间、树脂用量和蜡用量对板材的力学性能和浸水性能也有显著影响。最佳工艺条件为热压温度160℃,热压时间6 min,树脂用量20%,蜡用量0.7%。在最佳条件下,试件的断裂模量为11.9 Mpa,内部粘结强度为0.30 Mpa,厚度膨胀率为4.8%,均高于JIS A 5908的要求。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Utilization of Wheat Straw in Manufacture of Particleboard
Wheat straw is one of the most abundant and cheap agricultural wastes, and it is estimated that about 250 million tons are produced annually in China. Wheat straw is predominantly disposed of by direct burning in open field due to lack of e¿ective utilization, which also causes serious environmental pollution. It is an important issue to deal with the agricultural waste both for the comprehensive utilization of lignocellulosic resources and for the prevention of environmental pollution. The aim of the present work was to investigate the suitability of wheat straw as a raw material for particleboard. In this study, phenol–formaldehyde resin was modified with polyisocyanate as an adhesive for wheat straw particleboard preparation. Orthogonal experiment design was used to study the effects of hot-press temperature, hot-press time, resin application ratio, and wax application ratio on mechanical and water soaking properties of the wheat straw particleboard. Results showed that hot-press temperature was the dominant in¿uencing factor. Mechanical and soaking properties improved as hot-press temperature increased and reached their highest point at 160¿. Hot-press time, resin application ratio, and wax application ratio also had a significant effect on mechanical and water soaking properties of the board. The optimum manufacture condition was 160¿ for hot-press temperature, 6 min for hot-press time, 20% for resin application ratio, 0.7% for wax application ratio. Under the optimum condition, 11.9 Mpa of the modulus of rupture, 0.30 Mpa of the internal bond and 4.8% of the thickness swell were obtained, higher than the requirement of JIS A 5908.
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