界面 PVA 桥联对 TEMPO/NaClO2 氧化纤维素纳米纤维膜水稳定性和力学性能的影响。

Effect of interfibrillar PVA bridging on water stability and mechanical properties of TEMPO/NaClO2 oxidized cellulosic nanofibril films.

机构信息

VTT Technical Research Centre of Finland, VTT, PO Box 1000, FIN-02044 Espoo, Finland.

Polymer Technology, Department of Biotechnology and Chemical Technology, Aalto University School of Chemical Technology, Aalto, PO Box 16100, FIN-00076 Espoo, Finland.

出版信息

Carbohydr Polym. 2015 Aug 1;126:78-82. doi: 10.1016/j.carbpol.2015.03.007. Epub 2015 Mar 12.

DOI:10.1016/j.carbpol.2015.03.007

PMID:25933525

Abstract

TEMPO/NaClO2 oxidized cellulosic nanofibrils (TCNF) were covalently bonded with poly(vinyl alcohol) (PVA) to render water stable films. Pure TCNF films and TCNF-PVA films in dry state showed similar humidity dependent behavior in the elastic region. However, in wet films PVA had a significant effect on stability and mechanical characteristics of the films. When soaked in water, pure TCNF films exhibited strong swelling behavior and poor wet strength, whereas covalently bridged TCNF-PVA composite films remained intact and could easily be handled even after 24h of soaking. Wet tensile strength of the films was considerably enhanced with only 10 wt% PVA addition. At 25% PVA concentration wet tensile strengths were decreased and films were more yielding. This behavior is attributed to the ability of PVA to reinforce and plasticize TCNF-based films. The developed approach is a simple and straightforward method to produce TCNF films that are stable in wet conditions.

摘要

TEMPO/NaClO2 氧化的纤维素纳米纤维（TCNF）与聚乙烯醇（PVA）共价键合，以制备水稳定的薄膜。在干燥状态下，纯 TCNF 薄膜和 TCNF-PVA 薄膜在弹性区域表现出相似的湿度依赖性行为。然而，在湿膜中，PVA 对薄膜的稳定性和力学性能有显著影响。在水中浸泡时，纯 TCNF 薄膜表现出强烈的溶胀行为和较差的湿强度，而共价键合的 TCNF-PVA 复合薄膜保持完整，即使浸泡 24 小时后也很容易处理。仅添加 10wt%的 PVA 即可显著提高薄膜的湿拉伸强度。当 PVA 浓度达到 25wt%时，湿拉伸强度降低，薄膜的延展性增加。这种行为归因于 PVA 增强和增塑基于 TCNF 的薄膜的能力。所开发的方法是一种简单直接的制备在湿条件下稳定的 TCNF 薄膜的方法。

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界面 PVA 桥联对 TEMPO/NaClO2 氧化纤维素纳米纤维膜水稳定性和力学性能的影响。

Effect of interfibrillar PVA bridging on water stability and mechanical properties of TEMPO/NaClO2 oxidized cellulosic nanofibril films.

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