Enhanced thermoregulation performance of knitted fabrics using phase change material incorporated thermoplastic polyurethane and cellulose acetate nanofibers-Reference-Cited by-同舟云学术

Enhanced thermoregulation performance of knitted fabrics using phase change material incorporated thermoplastic polyurethane and cellulose acetate nanofibers

Published:2024-08-09 Issue: Volume: Page:
ISSN:0032-3888
Container-title:Polymer Engineering & Science
language:en
Short-container-title:Polymer Engineering & Sci

Author:

Akduman Çiğdem¹^ORCID,Oğlakcıoğlu Nida²^ORCID,Çay Ahmet²^ORCID

Affiliation:

1. Department of Textile Technology, Denizli Vocational School of Technical Sciences Pamukkale University Denizli Turkey

2. Department of Textile Engineering, Faculty of Engineering Ege University Izmir Turkey

Abstract

AbstractNanofibers act as carriers in systems containing functional materials produced via electrospinning method. By this way, it is possible to transport functional materials with polymer nanofibers, besides having a large surface area compared to their volume, the encapsulation process, which includes complex preparation processes, is eliminated here, and functional materials such as phase‐change materials (PCMs) can be conveniently integrated directly into the carrier material by electrospinning method. The resulting nanofiber membrane can also be used in combination with textile fabrics. This study aims to develop PCM containing nanofibrous membrane coated knitted fabric structures with heat regulation capabilities. Two types of PCMs, hexadecane and octadecane loaded into thermoplastic polyurethane (TPU) and cellulose acetate (CA) nanofibers, directly electrospun on cotton (CO), cotton/polyester (CO/PES), cotton/acrylic (CO/PAC) knitted fabrics for thermoregulation. These nanofiber‐coated fabrics were characterized by scanning electron microscopy (SEM) and differential scanning colorimetry (DSC), and their comfort properties were evaluated by water vapor and air permeability tests and compared with a commercial microcapsule impregnated fabric. According to DSC results, PCM incorporated CA nanofibers had better heat storage capacity than TPU nanofibers and microcapsule applied fabrics. Although PCM‐loaded CA nanofibers may not block airflow as effectively as TPU nanofibers, when a proper coating is achieved air permeability can be decreased to 21.70 L/m2/s, along with a heat storage capacity of 26.38 J/g and still having permeability to water vapor (%40).Highlights

Phase change materials were integrated directly to the carrier material by electrospinning

PCM integrated nanofiber coating reduced air permeability

PCM integrated nanofiber coating did not block water vapor permeability

Electrspun cellulose acetate +PCM coating had better heat storage capacity

Publisher

Wiley

Reference31 articles.

1. Development of thermoregulating textile materials with microencapsulated phase change materials (PCM). IV. Performance properties and hand of fabrics treated with PCM microcapsules

2. Organic phase change materials and their textile applications: An overview

3. Thermal energy storage and management applications through engineered fibrous material

4. Investigation of heat storage and comfort‐related properties of the heat storing microcapsule incorporated fabrics;Tözüm M;J Nat Appl Sci,2014

5. Methods of PCM microcapsules application and the thermal properties of modified knitted fabric