王婉华,古训洪,董昕睿,陈家俊,余中宇,郑桂斌,李擘.硬脂酸改性含木质素的纤维素微纳米纤丝增强纸基复合材料防水防油性能研究[J].中国造纸,2025,44(4):70-78 本文二维码信息
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硬脂酸改性含木质素的纤维素微纳米纤丝增强纸基复合材料防水防油性能研究
Study on Enhancing Waterproof and Oil-proof Performance of Paper-based Composites with Stearic Acid-modified Lignin-containing Cellulose Micro/Nanofibrils
收稿日期:2024-11-15  
DOI:10.11980/j.issn.0254-508X.2025.04.008
关键词:  含木质素的纤维素微纳米纤丝  硬脂酸  阻隔纸  防水防油性能
Key Words:lignin-containing cellulose micro/nanofibrils  stearic acid  barrier paper  waterproof and oil-proof performance
基金项目:“攀登计划”广东大学生科技创新培育专项资金资助项目(pdjh2023a0026);广州省自然科学基金面上项目(2023A1515011941);大学生创新创业训练计划项目(202410561107)。
作者单位邮编
王婉华* 华南理工大学制浆造纸工程国家重点实验室,广东广州,510640 510640
古训洪 华南理工大学制浆造纸工程国家重点实验室,广东广州,510640 510640
董昕睿 华南理工大学制浆造纸工程国家重点实验室,广东广州,510640 510640
陈家俊 华南理工大学制浆造纸工程国家重点实验室,广东广州,510640 510640
余中宇 华南理工大学制浆造纸工程国家重点实验室,广东广州,510640 510640
郑桂斌 华南理工大学制浆造纸工程国家重点实验室,广东广州,510640 510640
李擘* 华南理工大学制浆造纸工程国家重点实验室,广东广州,510640 510640
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摘要:本研究以未漂桉木浆为原料制备含木质素的纤维素微纳米纤丝(LCMNF),通过接枝硬脂酸的长链烷烃提升其抗水性能;再将其分别与未改性LCMNF依次沉积在滤纸表面,形成顶层为LCMNF、中间层为改性LCMNF的双层结构增强的纸基复合材料。通过热压工艺,将双层结构中的LCMNF紧密结合,以增强纸基复合材料的防水防油性能。结果表明,依次沉积8 g/m2的改性LCMNF和12 g/m2的未改性LCMNF(12LM-8LMS)时,制得纸基复合材料的Cobb60值和透气度均显著降低,分别为16.5 ‍g/m2和≤0.003 μm/(Pa·s),为原纸的16.2%和0.02%;同时,kit值从0提升至12,防油性能显著提升。
Abstract:This study utilized unbleached eucalyptus pulp to prepare lignin-containing cellulose micro/nanofibrils (LCMNF), enhancing their waterproof by grafting long-chain alkanes using stearic acid. These modified fibrils were then sequentially deposited on the filter paper alongside unmodified LCMNF, forming the enhancing paper-based composites with a top layer of LCMNF and a middle layer of modified fibrils in a bilayer structure. Through thermal pressing process, the LCMNF of bilayer structure was tightly bonded, improving the waterproof and oil-proof performance of the paper-based composites. The results showed that Cobb60 value and air permeability of the prepared paper-based composites that depositing 8 g/m2 modified and 12 g/m2 of unmodified LCMNF were significantly reduced to 16.5 g/m² and ≤0.003 μm/(Pa·s), respectively, which were 16.2% and 0.02% of those of the original paper. Meanwhile, the kit value increased from 0 to 12, demonstrating a significant enhancement in oil-proof performance.
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