Advanced Textile Technology ›› 2024, Vol. 32 ›› Issue (9): 56-64.

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Fabrication and heat insulation performance of ultra-thin and transparent aramid nanofiber aerogel films

  

  1. 1a. Research Institute of Textile and Clothing Industries; 1b. Key Laboratory of Green Dyeing & Finishing Technology In Zhengzhou; 1c. Zhengzhou Key Laboratory of Smart Fabrics & Flexible Electronics Technology; 1d. College of Textiles, Zhongyuan University of Technology, Zhengzhou 451191, China
  • Online:2024-09-10 Published:2024-10-08

超薄透明芳纶纳米纤维气凝胶膜的制备及隔热性能

  

  1. 1.中原工学院,a.纺织服装产业研究院;b.郑州市绿色染整技术重点实验;c.郑州智能织物与柔性电子技术重点实验室;d.纺织学院,郑州 451191

Abstract: Aramid materials are extensively employed in the fields of aerospace, electronic devices, and intelligent wearables owning to their remarkable attributes of high strength, robust processability, commendable temperature resistance, and corrosion resistance. The widespread utilization of aramid unavoidably generates a substantial quantity of aramid wastes.
To maximize the utilization of aramid wastes, this study successfully produced ultra-thin aramid nanofiber (ANFs) aerogel films with high transparency and flexibility. This was achieved through the combination of immersion precipitation phase inversion and freeze-drying techniques, with waste aramid as the raw material. The morphologies, chemical structure, optical properties, thermal stability and insulation of the resulting ANFs aerogel films were characterized by using FESEM, FTIR, UV-Vis, TG-DTG and FILR. The results demonstrated the average diameter of ANFs is 18.32 nm. In comparison to aramid waste, the main chemical structures of the ANFs did not undergo significant changes, but there was noticeable improvement in the content of free amino groups. Additionally, to regulate the morphology of ANFs aerogel film, the film forming process parameters and coagulation bath temperature were optimized. These factors played a role in determining the morphologies of the fabricated films. The thickness of the fabricated ANFs aerogel film ranged from 0.5 to 2 μm, and such thickness could be controlled by manipulating the concentration of the ANFs solution and the coagulation bath temperature. The cross-sectional analysis of the ANFs films reveals the presence of intricate three-dimensional network structures. The as-fabricated samples exhibit notable characteristics of ANFs aerogel films, including a specific surface area of 52.73 m2 g-1, a porosity of 92.43% and a pore size of 7.92 nm. Additionally, the integrated performance of these aerogel films was evaluated, demonstrating their exceptional transparency. Within the visible range of 500-780 nm, the transmittance of these films exceeds 70%, with the highest transmittance reaching 90.70 %. Notably, the ANFs aerogel films exhibit an almost negligible UV transmittance rate, approaching 0%, indicating dramatic UV resistance. The ANFs aerogel films demonstrate remarkable thermal insulation capacities, as evidenced by a temperature difference of 28 ℃ between a heat source (120 ℃) and the surface of the four-layer ANFs aerogel films (with a single layer thickness of 1.36 μm). Furthermore, these films exhibit favorable thermal stability with a minimum decomposition temperature (Td) of 450℃. Additionally, the films exhibit exceptional flexibility and conformability. 
This paper presents the construction of aerogel films with integrated performance, utilizing exfoliated ANFs derived from aramid fiber wastes. This approach enables the efficient utilization of aramid waste resources. The research employs rigorous evaluation methods to provide valuable insights into the formation of aerogel films. The obtained results serve as reference for the design, development, continuous and batch production, and utilization of desirable ANFs aerogel films.

Key words: waste aramid, aramid nanofiber, ultra-thin aerogel film, high transparency, thermal insulation

摘要: 为实现废弃芳纶高品质资源化利用,结合浸没沉淀相转化和冷冻干燥法,利用废弃芳纶成功制备了柔性、透明且隔热的芳纶纳米纤维(ANFs)超薄气凝胶膜。优化了ANFs气凝胶膜成型工艺,并借助FESEM、BET、FTIR、UV-Vis、TG及FLIR对所制ANFs薄膜的微观形貌、化学结构、透光性及热学性能进行分析。结果表明:ANFs被成功剥离,平均直径为18.32 nm;所制ANFs气凝胶膜成型良好,具有三维网络结构,其比表面积和孔隙率分别达52.73 m2/g和92.43%;ANFs气凝胶膜具有超高的透明性和防紫外性(紫外透过率接近0%),在500~780 nm范围内透过率均大于70%,最高达90.70%;此外,所制ANFs气凝胶膜热稳定性良好,具有优异的隔热性能和柔性,四层薄膜隔热温差达28 ℃。该超薄透明ANFs气凝胶膜制备工艺简单且成本低,具有透光、防紫外及隔热特性,在防护膜领域具有广阔的应用前景。

关键词: 废弃芳纶, 芳纶纳米纤维, 超薄气凝胶膜, 高透光性, 隔热性

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