矿物/微纤化纤维素复合材料:高性能产品、应用和产品形式

D. Skuse, Mark Windebank, T. Motsi, G. Tellier
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引用次数: 2

摘要

当纸浆和矿物在水悬浮液中共同加工时,矿物作为助磨剂,促进了原纤维的成本效益生产。此外,这种加工允许使用强大的工业铣削设备。在三大洲有40000干公吨的矿物/微纤维(MFC)纤维素复合材料生产能力。这些矿物/MFC产品已被FDA批准用于涂布和未涂布的食品接触纸和纸板应用中作为干湿强度剂。我们之前曾报道过,在纤维基础应用中使用这些矿物/MFC复合材料,通常可以改善干湿机械性能,同时节省成本,改善性能或开发等级,并且材料可以使用一系列纤维和矿物制备。在这里,我们:(1)报告提供改进性能的新产品的开发,(2)将这些新材料的性能与一系列其他纳米纤维素材料类型的性能进行比较,(3)说明这些新材料在增强(纸和板)和增粘应用中的性能,以及(4)讨论不同应用的产品形式要求。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mineral/microfibrillated cellulose composite materials: High performance products, applications, and product forms
When pulp and minerals are co-processed in aqueous suspension, the mineral acts as a grinding aid, facilitating the cost-effective production of fibrils. Furthermore, this processing allows the utilization of robust industrial milling equipment. There are 40000 dry metric tons of mineral/microfbrillated (MFC) cellulose composite production capacity in operation across three continents. These mineral/MFC products have been cleared by the FDA for use as a dry and wet strength agent in coated and uncoated food contact paper and paperboard applications. We have previously reported that use of these mineral/MFC composite materials in fiber-based applications allows generally improved wet and dry mechanical properties with concomitant opportunities for cost savings, property improvements, or grade developments and that the materials can be prepared using a range of fibers and minerals. Here, we: (1) report the development of new products that offer improved performance, (2) compare the performance of these new materials with that of a range of other nanocellulosic material types, (3) illustrate the performance of these new materials in reinforcement (paper and board) and viscosification applications, and (4) discuss product form requirements for different applications.
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