Exploring the fabrication of temperature-regulated spray-bonded cotton using eutectic dual-network phase transition microspheres

To achieve effective temperature-regulated modification of spray-bonded cotton for superior thermal management capabilities, a dual-network phase transition microspheres (PCP) was developed through a one-step process using emulsion polymerization. This innovative approach incorporated eutectic polye...

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Bibliographic Details
Published in:Journal of polymer research 2024-10, Vol.31 (10), Article 287
Main Authors: Che, Junwen, Zhang, Hong, Zeng, Jiexiang, Jiang, Jianyu, Bai, Zijian, Wang, Yan, Zhang, Fankai
Format: Article
Language:English
Subjects:
Calcium alginate
Characterization and Evaluation of Materials
Chemical bonds
Chemical reactions
Chemistry
Chemistry and Materials Science
Cooling
Cotton
Crosslinking
Emulsion polymerization
Enthalpy
Eutectic composition
Eutectic temperature
Heat resistance
Heating
Industrial Chemistry/Chemical Engineering
Latent heat
Melting
Microspheres
Original Paper
Phase transitions
Polyacrylamide
Polyethylene glycol
Polymer Sciences
Sandwich panels
Temperature control
Thermal management
Thermal resistance
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Summary:To achieve effective temperature-regulated modification of spray-bonded cotton for superior thermal management capabilities, a dual-network phase transition microspheres (PCP) was developed through a one-step process using emulsion polymerization. This innovative approach incorporated eutectic polyethylene glycol (PEG) as the phase change component, chemically cross-linked polyacrylamide (PAM) as the first network, and ionically cross-linked calcium alginate (CA) as the second network. The PCP, which contains PEG solid-loaded in the dual network, was utilized as a modifier for the post-treatment of spray-bonded cotton using a coating technique. Key findings reveal that the effectively immobilization of PEG has been, without any abserved chemical reactions between PEG and PAM/CA. Additionally, PEG maintained its crystalline properties when combined with PAM/CA. The PCP exhibited a distinct morphology with smooth, spherical particles averaging round 5 μm in diameter. The optimized PCP sample exhibits a melting onset temperature of 37.20 °C, a melting enthalpy of 92.59 J·g −1 , and impressive heat resistance. The resulting temperature-regulated spray-bonded cotton (TRSBC) displayed intelligent temperature control characteristics with a melting onset at 37.65 °C and a latent heat of 32.08 J·g −1 . Compared to untreated spray-bonded cotton (USBC), TRSBC exhibited a notable delay effect in both heating and cooling processes, resulting in a temperature differential of 23.5 °C during heating and 16.3 °C during cooling, underscoring its superior temperature control capabilities. Research indicates that TRSBC possesses significant potential in thermal management applications, encompassing clothing, high-tech textiles, and temperature-regulating sandwich panels, thereby presenting considerable opportunities for commercial ventures. Graphical Abstract
ISSN:1022-9760
1572-8935
DOI:10.1007/s10965-024-04134-w