Wet-end addition of nanofibrillated cellulose pretreated with cationic starch to achieve paper strength with less refining and higher bulk

July 2018 Pub Date : 2018-08-01 DOI:10.32964/TJ17.07.395

M. Rice, Lokendra Pal, Ronalds Gonzalez, M. Hubbe

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引用次数: 16

Abstract

Nanofibrillated cellulose (NFC) treated with cationic starch was evaluated as a bonding system to permit lower degrees of refining and lower apparent density of high-mass handsheets made from bleached kraft pulp. Mixed pulp (70% hardwood, 30% softwood) was formed into sheets with the optional addition of 5% by dry mass of NFC. The default addition of NFC was compared with a system in which the NFC had been pretreated either with cationic starch (at various levels) or optionally followed by colloidal silica. Comparative tests also were carried out with separate addition of cationic starch to the main furnish. Unrefined fibers (514 mL CSF) were compared with low-refined (473 mL CSF) and high-refined (283 mL CSF) pulp mixtures. The NFC that had been pretreated with cationic starch at a high level was especially effective at boosting the tensile strength and stiffness of sheets prepared from pulp that had been refined at a low level, thus achieving improved strength at relatively low apparent density (high bulk) of the handsheets. The results support a strategy, for applicable grades of paper, of using cationic starchpretreated NFC in place of refining energy applied to the main fiber furnish. It was further established that colloidal silica can be employed as a further pretreatment of the cationic starch–treated NFC as a means of promoting dewatering in the combined system.

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湿端加入经阳离子淀粉预处理的纳米纤化纤维素，以较少的精炼和较高的体积达到纸张强度

用阳离子淀粉处理的纳米纤化纤维素(NFC)被评价为一种键合系统，可以使漂白硫酸盐纸浆制成的高质量手纸的精炼程度降低，表观密度降低。混合纸浆(70%硬木，30%软木)，可选择添加5%的NFC干质量成片。将NFC的默认添加量与用阳离子淀粉(不同水平)或选择性地随后用胶体二氧化硅预处理NFC的系统进行比较。在主配料中单独添加阳离子淀粉进行了对比试验。未精制纤维(514 mL CSF)与低精制(473 mL CSF)和高精制(283 mL CSF)浆料混合物进行比较。高浓度阳离子淀粉预处理的NFC在提高由低浓度精制纸浆制备的纸页的抗拉强度和刚度方面特别有效，从而在相对较低的表观密度(高体积)下实现了强度的提高。研究结果支持了一种策略，对于适用等级的纸张，使用阳离子淀粉预处理的NFC来代替用于主要纤维原料的精炼能量。进一步确定了胶体二氧化硅可以作为阳离子淀粉处理的NFC的进一步预处理，作为促进联合体系脱水的手段。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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July 2018

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