The effect of microfibrillated cellulose on the wet-web strength of paper

January 2021 Pub Date : 2021-02-01 DOI:10.32964/tj20.1.61

J. Phipps, T. Larson, Mark Paradis, D. Tănase

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Abstract

The wet-web strength of paper immediately after the press section of a paper machine is a critical factor in determining machine runnability. However, it is difficult to determine at commercial scale, because the web has to be broken and production interrupted in order to obtain a sample for measurement. The use of microfibrillated cellulose (MFC) is believed to increase wet-web strength, as it has allowed filler level increases of 10% or more on many commercial paper machines. In this paper, we describe a laboratory method for estimating the effect of MFC on wet sheet strength after pressing, as well as actual measurements of wet-web strength from a pilot paper machine trial. These experiments have demonstrated the positive effect of MFC. At solids contents in the range typically observed after pressing, sheets with MFC at fixed filler content are significantly stronger, but also wetter, than those without it. When the use of MFC is combined with a typical increase in filler content, the wet web remains slightly stronger, but also becomes drier than the reference condition. These results are compatible with the theory put forward by van de Ven that wet-web strength is mainly a result of friction between entangled fibers, and they also suggest that the presence of MFC increases this friction.

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微纤化纤维素对纸张湿网强度的影响

纸机压段后纸张的湿纸强度是决定机器运行性能的一个关键因素。然而，在商业规模上很难确定，因为为了获得用于测量的样品，必须打破网并中断生产。微纤化纤维素(MFC)的使用被认为可以增加湿网强度，因为在许多商业造纸机上，它允许填料水平增加10%或更多。在本文中，我们描述了一种实验室方法来估计MFC对压后湿纸强度的影响，以及在中试纸机试验中对湿纸强度的实际测量。这些实验证明了MFC的积极作用。在固体含量通常在压制后观察到的范围内，在固定填料含量下，含有MFC的板材比没有MFC的板材明显更强，但也更湿。当MFC的使用与填料含量的典型增加相结合时，湿腹板仍然略强，但也比参考条件更干燥。这些结果与van de Ven提出的湿网强度主要是缠结纤维之间摩擦的理论相一致，也表明MFC的存在增加了这种摩擦。

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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January 2021

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