Effect of Press-Drying Parameters on Paper Properties

Pulp and Paper Processing Pub Date : 2018-10-03 DOI:10.5772/INTECHOPEN.76508

Ahmed Koubaa, Z. Koran

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引用次数: 6

Abstract

This study investigates alternatives that can improve the internal bond strength (IBS) of paper by pulp refining and paper press-drying (PD). The improvement mechanisms of IBS and their impact on the strength development of high-yield pulps are discussed. All experiments were conducted using a factorial design where the factors were four pulp types (one spruce thermomechanical (TMP) and three chemi-thermomechanical (CTMP) from spruce, birch, and aspen), three refining levels, three PD temperatures and three pressures. The effects of these treatments on the physical and mechanical properties of paper were studied using an analysis of variance. Refining changed the fibre surface, thereby promoting mechanical adhesion. PD temperature softened the fibres and changed their surface chemistry, while PD pressure improved the contact area between fibres. These changes led to an important improvement in IBS which explained, to a large extent, the variations in paper properties. Compared to air-dried paper, PD paper showed much higher properties for most tested pulps at all refining levels. These results were due to the increase in bonded areas. PD at 175°C substantially improved the wet tensile strength of paper due to the flow of lignin on the fibre surface, which protects the hydrogen bonds from moisture.

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压干参数对纸张性能的影响

本文研究了通过纸浆精炼和纸张压干来提高纸张内部粘结强度的替代方法。讨论了IBS的改善机理及其对高得率纸浆强度发展的影响。所有实验均采用因子设计进行，其中因素为四种纸浆类型(一种云杉热机械(TMP)和三种化学热机械(CTMP)，来自云杉，桦树和白杨)，三种精炼水平，三种PD温度和三种压力。采用方差分析方法研究了这些处理对纸张物理力学性能的影响。精炼改变了纤维表面，从而促进了机械附着力。温度使纤维软化，表面化学性质发生改变，压力使纤维接触面积增大。这些变化导致IBS的重要改善，这在很大程度上解释了纸张性能的变化。与风干纸相比，PD纸在所有精炼水平下对大多数测试纸浆显示出更高的性能。这些结果是由于保税区的增加。175℃下的PD大大提高了纸张的湿拉伸强度，因为木质素在纤维表面流动，保护了氢键免受水分的影响。

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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Pulp and Paper Processing

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