Composite phase change materials improve the photo-thermal effects of cotton fabrics

We report on the impregnation-based preparation of composite phase change materials (CPCMs) with thermal storage properties, using paraffin wax and multi-walled carbon nanotubes (MWCNTs). We coated the CPCMs on the fabric by scraper coating, then evaluated their shape stability, latent heat, thermal...

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Veröffentlicht in:	Textile research journal 2021-06, Vol.91 (11-12), p.1239-1252
Hauptverfasser:	Zhang, Wei, Hao, Shang, Weng, Jiali, Zhang, Yibo, Yao, Jiming, Wei, Sainan
Format:	Artikel
Sprache:	eng
Schlagworte:	Ambient temperature Coatings Composite materials Cotton Cotton fabrics Fabrics Functional materials Heat Heat conductivity Heat transfer Latent heat Multi wall carbon nanotubes Nanotechnology Nanotubes Paraffin Paraffin wax Phase change materials Shelf life Stability analysis Storage stability Surface temperature Temperature effects Thermal conductivity Thermal energy Thermal stability Thermal storage
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container_title	Textile research journal
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creator	Zhang, Wei Hao, Shang Weng, Jiali Zhang, Yibo Yao, Jiming Wei, Sainan
description	We report on the impregnation-based preparation of composite phase change materials (CPCMs) with thermal storage properties, using paraffin wax and multi-walled carbon nanotubes (MWCNTs). We coated the CPCMs on the fabric by scraper coating, then evaluated their shape stability, latent heat, thermal conductivity, thermal storage stability and photo-thermal effects. Results show that CPCMs with 10% acid-oxidized MWCNTs introduce only a small phase leakage when heated at 50℃ for 900 s; their latent heat energy reduces by 16.5%, while their thermal conductivity increases by 131.9% compared to pure paraffin. When exposed to sunlight at an ambient temperature of 12.5℃, the cotton fabrics coated with CPCMs record a 12.8℃ higher surface temperature than the pristine fabric, while their heat dissipation is delayed by 120–180 s. The fabric surface temperature increases to twice the ambient temperature during daytime. Overall, these findings indicate that the coated fabric has excellent thermal stability, affirming its potential as photo-thermal functional material.
doi_str_mv	10.1177/0040517520975617
format	Article
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We coated the CPCMs on the fabric by scraper coating, then evaluated their shape stability, latent heat, thermal conductivity, thermal storage stability and photo-thermal effects. Results show that CPCMs with 10% acid-oxidized MWCNTs introduce only a small phase leakage when heated at 50℃ for 900 s; their latent heat energy reduces by 16.5%, while their thermal conductivity increases by 131.9% compared to pure paraffin. When exposed to sunlight at an ambient temperature of 12.5℃, the cotton fabrics coated with CPCMs record a 12.8℃ higher surface temperature than the pristine fabric, while their heat dissipation is delayed by 120–180 s. The fabric surface temperature increases to twice the ambient temperature during daytime. 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subjects	Ambient temperature Coatings Composite materials Cotton Cotton fabrics Fabrics Functional materials Heat Heat conductivity Heat transfer Latent heat Multi wall carbon nanotubes Nanotechnology Nanotubes Paraffin Paraffin wax Phase change materials Shelf life Stability analysis Storage stability Surface temperature Temperature effects Thermal conductivity Thermal energy Thermal stability Thermal storage
title	Composite phase change materials improve the photo-thermal effects of cotton fabrics
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