蔺家成,林涛,魏潇瑶,鲁璐璐,刘飞亚,殷学风.凹凸棒对纳米纤维素基气凝胶结构及性能的影响研究[J].中国造纸学报,2023,38(3):124-132 |
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凹凸棒对纳米纤维素基气凝胶结构及性能的影响研究 |
Effect of Attapulgite on the Structure and Properties of Cellulose Nanofibrils Composite Aerogel |
投稿时间:2023-05-25 |
DOI:10.11981/j.issn.1000-6842.2023.03.124 |
中文关键词: 纳米纤维素 凹凸棒 气凝胶 增强材料 |
Key Words:nanocellulose attapulgite aerogel reinforced material |
基金项目:陕西省自然科学基础研究项目(2019JM-485);国家大学生创新创业培养计划(S202010708007);陕西省造纸技术与专用纸开发重点实验室资助。 |
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中文摘要: |
以纤维素纳米纤丝(CNF)作为原料,以凹凸棒(ATP)作为增强材料,通过制备不同质量比的纳米纤维素-凹凸棒(CNF-ATP)悬浮液;然后利用液氮梯度冷冻和冷冻干燥的方法制备了CNF-ATP复合气凝胶。采用傅里叶变换红外光谱(FT-IR)、X射线衍射(XRD)、热重分析(TG)等手段对制备所得气凝胶样品进行分析,探究了不同ATP的添加量对CNF-ATP气凝胶结构的影响。结果表明,CNF-ATP的前驱体悬浮液Zeta电位为-31.20 mV,粒径分布主要在1000 nm以上。随着ATP添加量的提高,CNF-ATP复合气凝胶的湿、热稳定性及抗应变能力也显著提升,热分解温度超过了305 ℃,在溶液中浸渍72 h仍能保持湿稳定性。同时,研究发现当CNF和ATP质量比为2∶1时,CNF-ATP复合气凝胶的抗应变能力和柔韧平衡性最佳,形变承受程度可高达45%。该比例下CNF-ATP复合气凝胶的湿、热稳定性也得到了极大程度的提升,ATP在气凝胶孔壁上的分布状况表现了其分散性良好。 |
Abstract: |
Using cellulose nanofibers (CNF) as raw material and attapulgite (ATP) as reinforcing material, CNF-ATP suspension with different ratios were prepared, and then CNF-ATP composite aerogels prepared by liquid nitrogen gradient freezing and freeze-drying. The effect of different amount of ATP on the structure of CNF-ATP aerogel was analyzed by means of infrared spectroscopy (FT-IR), X-ray diffraction (XRD) and thermogravimetric analysis (TG). The results showed that the Zeta potential of the precursor suspension of CNF-ATP was -31.20 mV, and the particle size distribution was mainly above 1000 nm. As the amount of ATP added increasing, the humidity and heat stability and strain resistance of the CNF-ATP composite aerogel were also significantly improved. The thermal decomposition temperature exceeded 305 ℃, and the humidity stability was maintained after 72 h of immersion in the solution. At the same time, the study found that when the mass ratio of CNF and ATP was 2∶1, the CNF-ATP composite aerogel had the best strain resistance and flexibility balance, and the deformation tolerance could be as high as 45%. The humidity and heat stability of the CNF-ATP composite aerogel at this ratio has also been improved to the greatest extent, and the distribution of ATP on the pore wall of the aerogel showed its good dispersion. |
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