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聚多巴胺/蛋白酶对羊毛防缩性能的影响

Effect of polydopamine/protease on the anti-shrinkage properties of wool
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摘要 针对蛋白酶在羊毛防缩整理中对纤维内部损伤较大、水解鳞片效率低、均一性差的问题,采用聚多巴胺交联蛋白酶在pH值为8,温度为40℃的条件下对羊毛进行处理。分析了多巴胺底物质量浓度和处理时间对羊毛纤维物理、力学和润湿性能的影响。结果表明:与蛋白酶处理的羊毛纤维相比,经聚多巴胺-蛋白酶联合处理的羊毛纤维防缩性能、润湿性能和纤维细度均有所提高;多巴胺底物浓度和反应时间会对羊毛纤维力学性能造成相反影响。 In response to the problems of significant damage to the fiber interior,low hydrolysis efficiency,and poor uniformity caused by protease in wool anti shrink finishing,polydopamine cross-linked protease is used to treat wool at pH of 8 and temperature of 40 C.The effects of dopamine substrate concentration and treatment time on the physical,mechanical,and wetting properties of wool fibers are analyzed.The results show that compared with the wool fibers treated with protease,the wool fibers treated with the combination of dopamine protease show an improvement in anti-felting,wetting,and fineness in comparison with scoured wool fiber.Dopamine substrate concentration and reaction time have opposite effects on the mechanical properties of wool fibers.
作者 赵浦岐 徐鹏 张星 杜玉婷 王凤鸽 ZHAO Puqi;XU Peng;ZHANG Xing;DU Yuting;WANG Fengge(College of Textile Light Industry,University of Inner Mongolia Technology,Hohhot 010080,Inner Mongolia,China)
机构地区 内蒙古工业大学轻工与纺织学院
出处 《上海纺织科技》 北大核心 2023年第8期39-42,共4页 Shanghai Textile Science & Technology
基金 内蒙古自治区直属高校基本科研业务费项目(RZ2200002859)。
关键词 羊毛 防缩整理 蛋白酶 聚多巴胺 润湿性能 wool anti-felting proteinase polydopamine wetting property
分类号 TS195.56 [轻工技术与工程—纺织化学与染整工程]
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  • 1陈忍忍,袁久刚,余圆圆,范雪荣,王强,朱怡然.壳聚糖修饰羊毛防毡缩用蛋白酶的制备及其酶学性质[J].食品与生物技术学报,2012,31(5):505-510. 被引量:2
  • 2Sever M J, Weisser J T, Monahan J, et al. Metal-mediated cross-linking in the generation of amarine-mussel adhesive[ J]. Angewandte Chemie International Edition, 2004, 43 (4): 448 - 450.
  • 3Crisp D J, Walker G, Young G A, et al. Adhesion and sub- strate choice in mussels and barnacles [ J ]. Journal of Colloid and Interface Science, 1985, 104(1) : 40 -50.
  • 4Waite J H, Tanzer M L. Polyphenolic substance of Mytilus edulis: Novel adhesive containing L-dopa and hydroxyproline [J]. Science, 1981, 212(4498): 1038-1040.
  • 5Dalsin J L, Messersmith P B. Bioinspired antifouling polymers [J]. Materials Today, 2005, 8(9) : 38 -46.
  • 6Lee H, Dellatore S M, Miller W M, et al. Mussel-inspired surface chemistry for multifunctional coatings [ J ]. Science, 2007, 318(5849) : 426 -430.
  • 7Burzio L A, Waite J H. Cross-linking in adhesive quinopro- teins: Studies with model decapeptides [ J ]. Biochemistry, 2000, 39(36) : 11147 -11153.
  • 8van der Leeden M C. Are confonnational changes, induced by osmotic pressure variations, the underlying mechanism of con- trolling the adhesive activity of mussel adhesive proteins? [ J]. Langmuir, 2005, 21 (24) : 11373 - 11379.
  • 9Ratner B D, Hoffman A S, Schoen F J, et al. Biomaterials sci- ence: An introduction to materials in medicine[ J]. Biomateri- als, 2004, 26(24): 162-164.
  • 10Xi Zhenyu, Xu Youli, Zhu Liping, et al. A facile method of surface modification for hydrophobie polymer membranes based on the adhesive behavior of poly (DOPA) and poly ( dopa- mine) [ J ]. Journal of Membrane Science, 2009, 327 ( 1 ) : 244 - 253.

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上海纺织科技
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