Self-reinforced nanocomposite by partial dissolution of cellulose microfibrils in ionic liquid

IF 2.3 3区材料科学 Q3 MATERIALS SCIENCE, COMPOSITES

Journal of Composite Materials Pub Date : 2012-06-01 DOI:10.1177/0021998311418017

A. Shakeri, A. Mathew, K. Oksman

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引用次数: 13

Abstract

All-cellulose nanocomposite films with different ratios of cellulose I and II were produced by partial dissolution of microfibrillated cellulose using ionic liquid and subsequent film casting. The films were isotropic, transparent to visible light, highly crystalline, and contained different amounts of undissolved cellulose I crystallites in a matrix of dissolved cellulose. X-ray diffraction confirmed that cellulose I, i.e., the major polymorphic modification of cellulose in these nanocomposites, is rearranged to cellulose II crystal packing after the partial dissolution. The all-cellulose nanocomposite showed enhanced thermal properties, with thermal degradation temperature increased by 22% compared with thedissolved cellulose. The SEM and AFM studies verified that the nano-sized cellulose crystallites were well dispersed in the matrix. Results from DMA showed that the storage modulus was increased from 270 MPa for the dissolved cellulose to 1104 MPa for the nanocomposite with lower dissolution grade. This indicates that the all-cellulose nanocomposite films contained undissolved cellulose fragments – possibly cellulose I crystallites or aggregates of crystallites in a matrix of regenerated cellulose.

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纤维素微原纤维在离子液体中部分溶解的自增强纳米复合材料

采用离子液体对微纤化纤维素进行部分溶解，再进行铸膜，制备了不同比例纤维素I和II的全纤维素纳米复合膜。薄膜各向同性，对可见光透明，高度结晶，并且在溶解纤维素的基质中含有不同数量的未溶解的纤维素I晶体。x射线衍射证实，在这些纳米复合材料中，纤维素的主要多态性修饰是纤维素I，在部分溶解后被重新排列成纤维素II的晶体填料。与溶解的纤维素相比，全纤维素纳米复合材料的热降解温度提高了22%。SEM和AFM研究证实，纳米级纤维素晶体在基体中分散良好。结果表明，溶解纤维素的储存模量从270 MPa增加到1104 MPa，溶解等级较低。这表明，全纤维素纳米复合膜含有未溶解的纤维素碎片——可能是纤维素I晶体或再生纤维素基质中的晶体聚集体。

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来源期刊

Journal of Composite Materials 工程技术-材料科学：复合

CiteScore

5.40

自引率

6.90%

发文量

274

审稿时长

6.8 months

期刊介绍： Consistently ranked in the top 10 of the Thomson Scientific JCR, the Journal of Composite Materials publishes peer reviewed, original research papers from internationally renowned composite materials specialists from industry, universities and research organizations, featuring new advances in materials, processing, design, analysis, testing, performance and applications. This journal is a member of the Committee on Publication Ethics (COPE).