现代纺织技术 ›› 2023, Vol. 31 ›› Issue (5): 230-239.

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基于双网络相变气凝胶制备的调温保温织物性能

  

  1. 大连工业大学纺织与材料工程学院,辽宁大连116034
  • 收稿日期:2023-01-29 出版日期:2023-09-10 网络出版日期:2023-09-21
  • 作者简介:张鸿(1971—),女,辽宁辽阳人,教授,博士,主要从事相变气凝胶材料和纤维材料改性研究。
  • 基金资助:
    辽宁省重点攻关项目(LJKZZ20220073)

Properties of a temperature-regulated insulation fabric prepared on the basis of double network phase change aerogel

  1. College of Textile and Material Engineering, Dalian Polytechnic University, Dalian 116034, China
  • Received:2023-01-29 Published:2023-09-10 Online:2023-09-21

摘要: 为实现织物的调温保温改性,赋予其良好的热管理能力,以聚乙二醇为相变组份,设计交联聚丙烯酰胺和石墨烯双网络载体,采用原位溶液聚合法制备了相变气凝胶双功能材料。以自制相变气凝胶为改性剂,采用涂层法对棉布进行后整理,通过调节相变气凝胶与黏合剂质量比,得到改性织物的最佳制备工艺。采用扫描电子显微镜(SEM)、红外光谱仪(FTIR)、差示扫描量热仪(DSC)、温度记录仪和红外热成像仪对改性织物的形貌、化学结构、相变性能和热管理能力进行表征。结果表明改性织物的最佳工艺是:黏合剂选用水性聚氨酯(PUD HD-05N),相变气凝胶占整理液质量比为66.67%。相变气凝胶与织物分子间没有发生化学反应,依靠物理黏合作用被整理到织物表面,在织物表面形成功能膜;整理后的织物熔融焓为58.34 J/g,熔融温度在29.81~55.03 ℃区间,结晶焓为53.89 J/g,结晶温度在21.59~35.12 ℃区间,相变调温能力显著;制备的调温织物对升温有一定的延缓效果,降温时有较好的保温能力,显现良好的控温效果。

关键词: 调温保温织物, 聚乙二醇, 相变气凝胶, 涂层法, 热管理

Abstract: With the development of society, people often work and live in the environment with changeable temperature. To maintain the balance of human body temperature, the common practice is to use large-scale refrigeration or heating devices in buildings. The energy utilization rate of such devices is low, which inevitably causes a lot of waste. The emergence of thermal management technology is crucial to improve personal thermal comfort and reduce building energy consumption. Thermo-regulated textiles can directly adjust the body temperature balance through fabrics, alleviate energy waste and reduce greenhouse gas emissions. Such a fabric with special functions can adjust the body temperature to a comfortable range according to the human environment. Although great progress has been made in thermo-regulated textiles, the functions of temperature regulation and heat preservation are often realized separately. Phase change fabrics can only regulate temperature, and aerogel fabrics can only keep heat, which cannot meet the actual requirements of dynamic changing thermal environment.
To realize the dual function modification of temperature regulation and heat preservation of fabrics, this study organically combines phase change materials and aerogels, and applies them to fabrics, giving them good thermal management capabilities. Firstly, polyethylene glycol (PEG) was used as the phase change component to design crosslinked polyacrylamide and graphene dual network carriers, and dual network phase change aerogels were prepared by in-situ solution polymerization. Then, using self-made phase change aerogels as a modifier, the cotton fabric was treated with coating method to obtain a thermo-regulated and heat preservation fabric. By adjusting the mass ratio of phase change aerogels to waterborne polyurethane, the optimal process of the fabric was obtained.
Phase change aerogel (PCM) bifunctional materials were prepared by one-step method. The dual network skeleton did not lose its rich pore structure due to the solid loading of PCM, and the PCM still had high latent heat of phase change. The phase change aerogel bifunctional material was finished on the surface of the cotton fabric by coating finishing method, which successfully gave the fabric outstanding thermal management effect of both temperature regulation and heat preservation, and low cost, simple operation, high addition of functional materials and little impact on the original characteristics.
It is found that there is no chemical reaction between the phase change aerogel and the fabric molecules, and the phase change aerogel is finished on the fabric surface by physical adhesion, forming a functional film on the fabric surface. The melting enthalpy of the finished fabric is 58.34 J/g, the melting temperature ranges from 29.81 ℃ to 55.03 ℃, the crystallization enthalpy is 53.89 J/g, the crystallization temperature ranges from 21.59 ℃ to 35.12 ℃, and the phase change temperature regulation ability is remarkable. It has a certain delay effect on temperature rise, a good thermal insulation ability when cooling, and shows a good temperature control effect.
The dual-functional temperature-regulating thermal insulation fabric prepared can avoid high-temperature burns by adjusting the temperature in high temperature environment, and can save heat to avoid sudden cooling in cold environment. Such a fabric is expected to provide ideas for the development of more adaptive professional textiles and clothing to solve the biggest personal comfort problem under harsh conditions.

Key words: temperature-regulated insulation fabric, polyethylene glycol, phase change aerogel, coating method, thermal management 

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