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摘 要:玉米秸秆作为纤维板原料,可以减少木材的消耗,增加经济效益,提高对农作物秸秆的开发利用。由于秸秆的表面结构特性,导致了胶粘剂的大量使用,增加了对人体健康的危害。采用生物法处理能有效解决这一问题,同时一定程度上减少纤维板制作过程中能量的消耗,促进人造板行业的可持续发展。本论文分别对三株菌预处理玉米秸的原料压制纤维板进行了初步研究,结果发现:预处理后的秸秆样品中具有胶粘作用的糖类含量提高,改变了玉米秸秆木质纤维素结构,破坏了秸秆表面构造;对压制的纤维板性能进行了初步研究,发现预处理后秸秆压制的纤维板具有一定的防水性和阻燃性。57847
毕业论文关键字:玉米秸秆;白腐菌;生物预处理;纤维板
Abstract: Chemical fiber board materials such as corn straws, can reduce the consumption of wood resources, increase economic efficiency, the development and use of plant straws. However, due to the characteristics of the surface structure of straw, to the extensive use of adhesives, so that the risk to human health. With biological treatment of this problem can be effectively solved, and at the same time also to some extent in order to promote the fiber consumption of the energy production process, but the sustainable development of wood -based panel industry. The work of the three strains were pretreated corn stover feedstock pressed fiberboard conducted a preliminary study found that: to improve sugar content after pretreatment of the sample with adhesive effect, the change of corn straw lignocellulose structure destroyed Straw texture, fiber board pressed performance of a preliminary study found that straw fiber board pressed by pretreatment with a certain waterproof and flame resistance.
Key Words: corn straws; white-rot fungi; bio-pretreatment; fiberboards
目录
1. 前言 5
1.1选题背景 5
1.2 课题的研究意义及内容 5
1.2.1 研究意义 5
1.2.2 研究内容 5
1.3 玉米秸秆简介 6
1.4 玉米秸秆制备纤维板的研究现状和发展趋势 6
1.4.1 玉米秸秆纤维板的研究现状 6
1.4.2 玉米秸秆纤维板的优势 7
1.4.3 秸秆纤维板存在的问题 7
1.4.4 玉米秸秆纤维板的发展趋势 8
1.5 生物法处理制备纤维板的研究现状 8
1.5.1 白腐菌简介 8
1.5.2 生物法预处理 8
1.5.3 热压工艺 8
1.6 流程思路 8
2. 材料与方法 9
2.1.1 实验材料 9
2.1.2 实验菌株 9
2.1.3 实验试剂 9
2.1.4 培养基 9
2.1.5 实验器材 9
2.2 实验方法 10
2.2.1 菌株培养 10
2.2.2 白腐菌固体发酵玉米秸秆 10
2.2.3 菌株生长及菌丝分布的观测 10
2.2.4 可溶性总糖含量测定