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木质素和聚糖的酶催化交联产物在纤维板中的应用 被引量:2

Enzyme-catalyzed Crosslinking of Lignin and Polysaccharides in Fiberboard
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摘要 利用木质素前驱物协同果胶在漆酶体系作用下处理麦草纤维,以湿法工艺制造高强度中密度纤维板。实验结果表明:经处理后,纤维板的24 h吸水厚度膨胀率(TS),纤维板的内结合强度(IB),静曲强度(MOR),弹性模量(MOE)分别达到16.7%,0.6 MPa,25.1 MPa,2 500 MPa。各项物理性能指标均达到或超过国家中密度纤维板(GB/T 11718-2009)标准。通过SEM和CP/MAS13C NMR分析可知,在木质素和聚糖(果胶等)之间发生了交联反应,形成了类似胞间层的沉积物,通过苯甲醚、酯键等木质素-聚糖复合体形式的交联以及木质素之间的β-芳基醚键等共价键的连接,从而使纤维之间形成牢固的化学键交联。同时研究还发现,果胶与松柏醇葡萄糖苷很容易生成果胶-DHP复合体,从而进一步提高了纤维板的物理性能,同时降低TS。 In the present research, coniferin- [ a-13C ] is co-polymerized with fibers of Bio-CMP of wheat straw and pectin catalyzed by laecase. A wet method was used for the formation of high-strength fiberboards. The results indicated that the thickness expansion rate of water absorbing ( TS), the internal bond ( IB ), the modulus of rupture ( MOR), and the modulus of elasticity (MOE) reached 16.7 % , 0. 6 MPa, 25.1 MPa and 2 500 MPa,respectively. As a result, all mechanical properties of the medium-density fiberboard (MDF) can meet or exceed the standards of GB/T 11718 -2009. According to CP/MAS 13C NMR, lignin-earbohydrate complexes(LCC) were formed between lignin and polysaccharide. Pectin and xylan in fibers were erosslinked with high through benzyl ether linkages and ester bonds, and β-aryl ether linkages were formed between lignin. Furthermore, pectin and coniferin were easy to form pectin-DHP in the presence of laccase. These complexes and linkages result in a further improvement of mechanical properties of MDF and reduction of TS.
作者 王磊 谢益民 肖祎 杨海涛 王鹏
机构地区 湖北工业大学化学与环境工程学院 武汉中学
出处 《林产化学与工业》 EI CAS CSCD 北大核心 2011年第6期66-72,共7页 Chemistry and Industry of Forest Products
基金 国家自然科学基金资助项目(30871996 31070521)
关键词 松柏醇-β-D-葡萄糖苷-[α-13C] 漆酶 纤维板 机械性能 交联 coniferin- [ a-13 C ] laccase fiberboard mechanical properties crosslinking
分类号 TQ351 [化学工程]
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林产化学与工业
2011年 第6期

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