Co-ground mineral/microfibrillated cellulose composite materials: Recycled fibers, engineered minerals, and new product forms

January 2021 Pub Date : 2021-02-01 DOI:10.32964/tj20.1.49

D. Skuse, J. Phipps, T. Larson

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引用次数: 1

Abstract

When pulp and minerals are co-processed in suspension, the mineral acts as a grinding aid, allowing cost-effective production of mineral/microfibrillated cellulose (MFC) composite materials. This processing uses robust milling equipment and is practiced at industrial scale. The resulting products can be used in many applications, including as wet- and dry-strength aids in paper and board production. Previously, we have reported that use of these MFC composite materials in fiber-based applications allow generally improved wet and dry mechanical properties with concomitant opportunities for cost savings, property improvements, or grade developments. Mineral/MFC composites made with recycled pulp feedstocks were shown to offer at least equivalent strength aid performance to composites made using virgin fibers. Selection of mineral and fiber allows preparation of mineral/MFC composites with a range of properties. For example, the viscosity of such formulations was shown to be controlled by the shape factor of the mineral chosen, effective barrier formulations were prepared, and mineral/MFC composites with graphite as the mineral were prepared. High-solids mineral/MFC composites were prepared at 75% total solids (37% fibril solids). When resuspended and used for papermaking, these high-solids products gave equivalent performance to never-dried controls.

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共磨矿物/微纤化纤维素复合材料:回收纤维、工程矿物和新产品形式

当纸浆和矿物在悬浮液中共同加工时，矿物作为研磨助剂，使矿物/微纤化纤维素(MFC)复合材料的生产具有成本效益。这种加工使用坚固的铣削设备，并在工业规模上进行实践。所得产品可用于许多应用，包括纸张和纸板生产中的湿强和干强助剂。在此之前，我们曾报道过在基于纤维的应用中使用这些MFC复合材料可以普遍改善干湿机械性能，同时节省成本，改善性能或提高等级。用回收纸浆原料制成的矿物/MFC复合材料与使用原始纤维制成的复合材料相比，至少具有同等的强度辅助性能。矿物和纤维的选择可以制备具有一系列性能的矿物/MFC复合材料。例如，这种配方的粘度由所选矿物的形状因子控制，制备了有效的屏障配方，并制备了以石墨为矿物的矿物/MFC复合材料。高固体矿物/MFC复合材料的总固体含量为75%(纤维固体含量为37%)。当重悬浮并用于造纸时，这些高固体产品的性能与未干燥的对照物相当。

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January 2021

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