造纸中的酶法纳米纤维素——作为填料絮凝剂和增强剂的关键作用。

Enzymatic nanocellulose in papermaking - The key role as filler flocculant and strengthening agent.

作者信息

Lourenço Ana F, Gamelas José A F, Sarmento Pedro, Ferreira Paulo J T

机构信息

CIEPQPF, Department of Chemical Engineering, University of Coimbra, Polo II, R. Sílvio Lima, PT-3030 790 Coimbra, Portugal.

The Navigator Company, Lavos - Apartado 5, PT-3081 851 Figueira da Foz, Portugal.

出版信息

Carbohydr Polym. 2019 Nov 15;224:115200. doi: 10.1016/j.carbpol.2019.115200. Epub 2019 Aug 13.

DOI:10.1016/j.carbpol.2019.115200

PMID:31472843

Abstract

Nanocelluloses have been increasingly used in composites since their reduced size, high aspect ratio and stiffness confer great strength to the materials. In papermaking, it has been proved that harsh and expensive chemical pre-treatments to generate nanofibrils, such as TEMPO-mediated oxidation, are not the most favourable and therefore the use of cellulose microfibrils (CMF) have gained extra attention, especially those produced with the aid of enzymatic hydrolysis. In the present work, strategies to improve filler flocculation and the papermaking properties, by using enzymatic CMF, are provided. The CMF degree of polymerization was found to be directly related to precipitated calcium carbonate flocculation, leading to higher retentions in the fibre matrix. Besides, the paper dry and wet strengths were much improved, allowing in return the production of high-filler loaded handsheets with reduced requirements for common paper additives.

摘要

由于纳米纤维素尺寸减小、长径比高且具有刚性，能赋予材料极大的强度，因此其在复合材料中的应用越来越广泛。在造纸领域，已证明诸如TEMPO介导的氧化等用于生成纳米纤维的苛刻且昂贵的化学预处理并非最有利的方法，因此纤维素微纤维（CMF）的应用受到了更多关注，尤其是那些借助酶水解生产的纤维素微纤维。在本研究中，提供了通过使用酶促CMF来改善填料絮凝和造纸性能的策略。发现CMF的聚合度与沉淀碳酸钙的絮凝直接相关，从而在纤维基质中的保留率更高。此外，纸张的干强度和湿强度有了很大提高，进而使得在对普通纸张添加剂需求降低的情况下能够生产高填料含量的手抄纸。

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造纸中的酶法纳米纤维素——作为填料絮凝剂和增强剂的关键作用。

Enzymatic nanocellulose in papermaking - The key role as filler flocculant and strengthening agent.

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