The effect of mercerization on water conductivity in cotton fabrics and its regulation

Ke, Yushi; Huang, Hongbo; Wang, Yunli; Xu, Weilin

doi:10.1002/app.54428

Cited by 2 publications

(1 citation statement)

References 38 publications

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“…59 Meanwhile, the coating on the surface of the fabric increased the tangential sliding resistance between the fabric fibers, and the fibers were less likely to move relative to each other; the coating fastens the fibers between the fabrics, increasing the stiffness of the fabric, and the frictional resistance between the fibers increases. 60,61 The findings of the study revealed that the fabrics coated with TiO 2/ gelatin exhibited a favorable ability to recover from wrinkles.…”

Section: Resultsmentioning

confidence: 91%

Super-hydrophilic modification of polyester fabrics based on titanium dioxide/gelatin

Lu,

Feng,

Wang

et al. 2023

Textile Research Journal

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The comfort of polyester (polyethylene terephthalate or PET)as well as its reusability is greatly affected by its hydrophobicity. To improve the hydrophilicity of PET, titanium dioxide (TiO2) and gelatin were proposed to treat polyester by surface coating in this study. TiO2 and gelatin were selected because of their excellent ecological performance and wide usage. PET fabric had a super-hydrophilic surface and satisfied mechanical properties after various modifications. The synchronous treatment produced a significant effect. The fabric was coated with a dispersion of 4 g/l TiO2 and 5 g/l gelatin by the two-dip and two-rolling process. The static water contact angle of TiO2/gelatin-coated PET fabric reached 0° within 45 s. The results indicated that the PET fabric coated with TiO2/gelatin exhibited remarkable super-hydrophilicity and excellent resistance to wear and washing. Furthermore, the altered fabric underwent evaluation to assess its tensile fracture properties, air permeability, and crease recovery, which influenced its wearability and comfort. These performances demonstrate the potential application of TiO2/gelatin-coated PET fabric in textiles and apparel.

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Section: Resultsmentioning

confidence: 91%

Super-hydrophilic modification of polyester fabrics based on titanium dioxide/gelatin

Lu,

Feng,

Wang

et al. 2023

Textile Research Journal

View full text Add to dashboard Cite

show abstract

A method of constructing highly durable conductive materials by growing metal particles inside and outside fibers through solvation and multivalent bonding forces

Wen,

Du,

Sun

et al. 2024

Cellulose

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Metallized textiles have shown promising applications in the elds of electrical conductivity, Joule heating and electromagnetic shielding. Poor durabilities, especially washability, which caused by the signi cant mechanical mismatch between rigid metal parts and textiles have hindered commercialization process of these functional textiles. This work constructed ultra-durable conductive cotton fabrics by growing copper nanoparticles with amorphous region-controlled swelling and multivalent bonding forces to complex the metal particles. The enlarged ber amorphous zone and phen-amine molecules are used as templates to provide further possibilities for the internal and external enrichment growth of copper nanoparticles, providing good conductivity and high durability of the processed cotton fabric. The constructed fabric exhibits excellent electrical conductivity (6.09±0.36×10 -3 Ω/sq), electrothermal conversion (60 s, 1 V, ~140 °C) and electromagnetic shielding e ciency (65.32 dB). Notably, the electrical conductivity of the fabric remains essentially unchanged (Rs/R 0 =1.106) after 100 standard washing tests. This is attributed to the increase in metal particle loading and the enhancement of metal-ber bonding fastness. Therefore, this work might provide a novel insight for constructing ultra-washable conductive clothing textiles with heating and EMI shielding performance.

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The effect of mercerization on water conductivity in cotton fabrics and its regulation

Cited by 2 publications

References 38 publications

Super-hydrophilic modification of polyester fabrics based on titanium dioxide/gelatin

Super-hydrophilic modification of polyester fabrics based on titanium dioxide/gelatin

A method of constructing highly durable conductive materials by growing metal particles inside and outside fibers through solvation and multivalent bonding forces

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