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Thermally regulated cotton fabric coated with expanded graphite stabilized paraffin mixture as composite phase change material

Wei Zhang (College of Textile and Garments, Hebei University of Science and Technology, Shi jiazhuang, China and Hebei Technology Innovation Center for Textile and Garment, Hebei University of Science and Technology, Shi jiazhuang, China)
Enzheng Xing (College of Textile and Garments, Hebei University of Science and Technology, Shi jiazhuang, China and Hebei Technology Innovation Center for Textile and Garment, Hebei University of Science and Technology, Shi jiazhuang, China)
Shang Hao (Hebei University of Science and Technology, Shi jiazhuang, China and Hebei Technology Innovation Center for Textile and Garment, Hebei University of Science and Technology, Shi jiazhuang, China)
Yonghe Xiao (College of Textile and Garments, Hebei University of Science and Technology, Shi jiazhuang, China)
Ruonan Li (College of Textile and Garments, Hebei University of Science and Technology, Shi jiazhuang, China and Hebei Technology Innovation Center for Textile and Garment, Hebei University of Science and Technology, Shi jiazhuang, China)
Jiming Yao (College of Textile and Garments, Hebei University of Science and Technology, Shi jiazhuang, China and Hebei Technology Innovation Center for Textile and Garment, Hebei University of Science and Technology, Shi jiazhuang, China)
Yonggui Li (Fujian Key Laboratory of Novel Functional Textile Fibers and Materials, Minjiang University, Fuzhou, China)

Pigment & Resin Technology

ISSN: 0369-9420

Article publication date: 4 January 2021

Issue publication date: 12 July 2021

257

Abstract

Purpose

This study aims to manufacture cotton fabric with thermal regulation performance by using the composite phase change material (CPCM) prepared by coating paraffin doped with expanded graphite (EG), and the thermal effect of the fabric material was evaluated and characterized.

Design/methodology/approach

EG/paraffin CPCM with shape stability and enhanced thermal conductivity were prepared by the impregnation method and then finished on the surface of cotton fabric with coating technology. The microstructure, crystal structure, chemical composition, latent heat property and thermal conductivity were analyzed by scanning electron microscope, x-ray diffraction, Fourier transform infrared spectroscopy, differential scanning calorimeter and thermal constant analyzer. The photo-thermal effect of the coated fabric was studied by a thermal infrared imager.

Findings

CPCM prepared with a mass ratio of EG to paraffin of 1:8 showed excellent shape stability and low paraffin leakage rate. The latent heat of the CPCM was 51.6201 J/g and the thermal conductivity coefficient was increased by 11.4 times compared with the mixed paraffin. After the CPCM was coated on the surface of the cotton fabric, the light-to-heat conversion rate of the C-EG/PA3 sample was improved by 86.32% compared with the original fabric. In addition, the coated fabric showed excellent thermal stability and heat storage performance in the thermal cycling test.

Research limitations/implications

EG can improve the shape stability and thermal conductivity of paraffin but will reduce the latent heat energy.

Practical implications

The method developed provided a simple and practical solution to improving the thermal regulation performance of fabrics.

Originality/value

Combining paraffin wax with fabrics in a composite way is innovative and has certain applicability in improving the thermal properties of fabrics.

Keywords

Acknowledgements

This work was supported by Key Project of Hebei Education Department (Grant No. ZD2020112), Innovative Training Program for college students (Grant No. S201910082017) and the Open Project Program of Fujian Key Laboratory of Novel Functional Textile Fibers and Materials (Grant No. FKLTFM1901).

Citation

Zhang, W., Xing, E., Hao, S., Xiao, Y., Li, R., Yao, J. and Li, Y. (2021), "Thermally regulated cotton fabric coated with expanded graphite stabilized paraffin mixture as composite phase change material", Pigment & Resin Technology, Vol. 50 No. 4, pp. 293-301. https://doi.org/10.1108/PRT-06-2020-0059

Publisher

:

Emerald Publishing Limited

Copyright © 2020, Emerald Publishing Limited

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