Surface Mechanical Treatment of TMP Pulp Fibers Using Grit Material

December 2008 Pub Date : 2009-01-01 DOI:10.32964/tj7.12.4

P. Somboon, H. Paulapuro

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引用次数: 3

Abstract

The authors studied surface mechanical treatments of thermomechanical pulp fibers using a grit material after first-stage refining and the treatment’s impact on second-stage refining. The surface mechanical treatment was performed using an ultra-fine friction grinder. The grit size of the grinding stone, the intensity of treatment and the rotational speed were optimized to accomplish rapid development and minimization of pulp fiber shorten-ing. The second stage of refining was carried out using a wing defibrator operated under typical TMP refining conditions. Surface mechanical treatment using a grinding stone with a grit diameter of 297-420 µm, operated at a contact point of the stones and a high rotational speed of 1500 rpm, provided an efficient disruption of pulp fibers with minimized cutting. A promising degree of fiber cell wall fracture was obtained when the energy applied during disruption was approximately 20% of the total refiner energy consumption. During second stage refining the disrupted pulp developed freeness more quickly while requiring 37% less energy. Laboratory sheets showed no significant differences in properties between the disrupted and non-disrupted pulps at a given freeness.

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磨粒材料对TMP纸浆纤维的表面机械处理

研究了一段精炼后磨粒材料对热力纸浆纤维的表面力学处理及其对二段精炼的影响。采用超细摩擦磨床进行表面力学处理。通过优化磨石粒度、处理强度和转速，实现纸浆纤维短化的快速发展和最小化。在典型的TMP精炼条件下，使用翼式除颤器进行第二阶段的精炼。使用粒度为297-420µm的磨石进行表面机械处理，在磨石的接触点和1500 rpm的高转速下进行，可以有效地破坏纸浆纤维，最大限度地减少切割。当破坏过程中使用的能量约为精炼厂总能耗的20%时，纤维细胞壁断裂的程度很有希望。在第二阶段的精炼过程中，被破坏的纸浆的游离度更快，所需的能量减少了37%。实验室单显示，在给定的自由度下，破碎纸浆和未破碎纸浆的性质没有显著差异。

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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December 2008

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