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稻草秸秆纤维微米化及其离子交联制备疏水纤维素膜的研究
Study on Fibrillation of Rice Straw Fibers and Cross-linking with Ions to Prepare Hydrophobic Cellulose Films
收稿日期:2024-02-23  
DOI:10.11980/j.issn.0254-508X.2024.05.001
关键词:  纤维素微细纤维  Fe3+离子交联  疏水改性  接触角  拉伸应力
Key Words:cellulose microfibers  Fe3+ cross-linking  hydrophobic modification  contact angle  tensile stress
基金项目:国家重点研究计划国际合作项目(2021YFE0104500);国家自然科学基金(22078114)。
作者单位邮编
易泽德 华南理工大学制浆造纸工程国家重点实验室广东广州510640 510640
沈娟莉 华南理工大学制浆造纸工程国家重点实验室广东广州510640 510640
付时雨* 华南理工大学制浆造纸工程国家重点实验室广东广州510640
华南理工大学珠海现代产业创新研究院广东珠海519175 
519175
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摘要:农业废弃物稻草秸秆经NaOH预处理、TEMPO氧化和机械处理,再经真空抽滤成膜并与Fe3+交联,制备了具有疏水性的纤维素微细纤维(CMF)膜。通过FESEM、ATR-FT-IR、Zeta电位测试、XRD、拉伸测试、接触角和吸水率等表征,分析了CMF膜的结构和性能。结果表明,CMF充分与Fe3+交联,有效提高了CMF膜的疏水性。CMF膜的疏水性受离子交联时间和Fe3+浓度的影响,其水接触角最高可达134.15°;该膜在水中浸泡24 h后吸水率为50%,明显低于未交联CMF膜(210%)。Fe3+交联的CMF膜还具有良好的湿拉伸力,达37.5 MPa。
Abstract:Cellulose microfiber (CMF) film with hydrophobicity was prepared from agricultural waste rice straw by caustic soda pulping, TEMPO oxidation and mechanical treatment, followed by vacuum filtration and cross-linking with Fe3+. The structure and properties were analyzed by FESEM, ATR-FTI-IR, Zeta potential test, XRD, tensile test, contact angle and water absorption, etc. The results showed that the CMF was sufficiently cross-linked with Fe3+ to efficiently improve the hydrophobicity of CMF film. The water contact angle of CMF film was affected by the time of cross-linking and the concentration of Fe3+, which reached up to 134.15°. The water absorption of the film immersed in water after 24 h was 50%, which was significantly lower than that of the uncross-linked CMF film (210%). The ionically cross-linked CMF film also had good wet tensile stress of 37.5 MPa.
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