Preparation and Application of Microfibrillated Cellulose-modified Ground Calcium Carbonate 被引量：2

Preparation and Application of Microfibrillated Cellulose-modified Ground Calcium Carbonate

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摘要 Microfibrillated cellulose(MFC) was first prepared by 2,2,6,6-tetramethylpiperidine-1-oxyl(TEMPO) oxidation pretreatment and mechanical grinding in the presence of a certain amount of ground calcium carbonate(GCC).The effects of GCC dosage and grinding concentration on the fibrillation were investigated.The obtained MFC was then added to the bulk GCC to form MFC-modified GCC fillers.The properties of MFCmodified GCC fillers were compared to those of the traditional GCC fillers.Results showed that the resulting fibrils became more uniform when the dosage of GCC was 10%~15% and the concentration of the suspension was 6.97%.Compared to traditional GCC,the average particle size of the MFCmodified GCC fillers was larger.Scanning electron microscopy images showed that GCC and MFC formed a bridge structure in the MFC-modified GCC fillers.In the process of papermaking,the MFC-modified GCC fillers decreased the drainage rate but increased the retention of fillers.The prepared papers filled with MFC-modified GCC fillers had higher tensile strength than those filled with traditional GCC fillers. Microfibrillated cellulose （MFC） was first prepared by 2,2,6,6- tetramethylpiperidine-l-oxyl （TEMPO） oxidation pretreatment and mechanical grinding in the presence of a certain amount of ground calcium carbonate （GCC）. The effects of GCC dosage and grinding concentration on the fibrillation were investigated. The obtained MFC was then added to the bulk GCC to form MFC-modified GCC fillers. The properties of MFC- modified GCC fillers were compared to those of the traditional GCC fillers. Results showed that the resulting fibrils became more uniform when the dosage of GCC was 10%-15% and the concentration of the suspension was 6.97%. Compared to traditional GCC, the average particle size of the MFC- modified GCC fillers was larger. Scanning electron microscopy images showed that GCC and MFC formed a bridge structure in the MFC-modified GCC fillers. In the process of papermaking, the MFC-modified GCC fillers decreased the drainage rate but increased the retention of fillers. The prepared papers filled with MFC-modified GCC fillers had higher tensile strength than those filled with traditional GCC fillers.

作者 Xia Lv YanQun Su JinGang Liu

机构地区 China National Pulp and Paper Research Institute National Engineering Lab for Pulp and Paper

出处《Paper And Biomaterials》 2017年第3期18-27,共10页 造纸与生物质材料（英文）

关键词 microfibrillated cellulose GCC GRINDING modified filler microfibrillated cellulose GCC grinding modified filler

分类号 TS727.6 [轻工技术与工程—制浆造纸工程]

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