Surface modification of cotton fabrics for sublimation printing

Bemska, Jadwiga; Szkudlarek, Joanna

doi:10.2478/v10304-012-0026-4

Cited by 9 publications

(4 citation statements)

References 5 publications

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“…After washing, the relative strength of colour ( K/S ) for printed knitted fabrics was satisfactory compared with PES samples. Modification of knitted fabrics by POLAPPRET PU‐S showed better results in terms of the durability of printouts of colour quality compared with those modified with POLAPPRET AC‐S (A) 6 …”

Section: Introductionmentioning

confidence: 98%

“…For that reason, substantial efforts have been expended worldwide to enable the use of transfer printing on hydrophilic textile substrates. Many different approaches have been adopted to modify textile materials 4‐13 . For example, a different approach, which enables transfer printing of natural fibres, was modification of the sublimation paper 14‐16 …”

Section: Introductionmentioning

confidence: 99%

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Influence of sublimation transfer printing on alterations in the structural and physical properties of knitted fabrics

Stojanović

Geršak

Trajković

et al. 2020

Coloration Technology

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The influence of sublimation transfer printing on alteration of the structural and physical properties of knitted fabrics was investigated in this research study. Seven different knitted fabrics, which differed in terms of structure and raw material composition (polyester, cotton and cotton/polyester), were printed using the sublimation transfer technique. For the sublimation of cotton/polyester and cotton knitted fabrics, a coating powder was used for paper modification with the aim to bond reactive ink to the natural fibres. The influence of yarn parameters, pattern and the density of knitted fabrics on the degree of changes after the printing process was considered. Smaller changes in structural and physical properties were recorded for polyester knitted fabrics, while major changes in structure were observed in knitted fabrics containing cotton fibres, where were weight gain and reduction in geometrical roughness values. In addition, a significant change in density was recorded for polyester printed knitted fabrics. The parameters that influenced the colour difference results for polyester knitted fabrics were the yarn parameters and the pattern. Significantly high colour difference values were obtained for cotton (from 7.9 to 14.2) and cotton/polyester (from 8.5 to 14.4) knitted fabrics. The main reason for the high colour difference results was the alteration in the structure of the knitted fabrics.

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Section: Introductionmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 99%

Influence of sublimation transfer printing on alterations in the structural and physical properties of knitted fabrics

Stojanović

Geršak

Trajković

et al. 2020

Coloration Technology

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“…The modification of cellulose, being one of the subbranches of the second approach, is mainly divided into the following sections: chemical modification through acetylation, [42][43][44] cyanoethylation, 42,45,46 benzoylation, 47 benzylation, 48 grafting with styrene, 42 tetrahydrofurfuryl acrylate, 49 tolylene diisocyanate, 50 pre-treatment with resins [51][52][53] such as polyester, 43,[54][55][56] polyamide, 54 polyurethane, 54,57 acrylic polymers, 57,58 (meth)acrylic acid ester, 59 fluoropolymer particles, 60 crosslinking agents, 54,[61][62][63][64] such as methylolated acrylamide derivatives, 61 melamine formaldehyde/polyethylene glycol, 62 ureas, melamines and carbamates, 64 and use of swelling agents with high boiling temperatures such as ethylene glycol, diethylene glycol, triethylene glycol, tetraethylene glycol, etc. [65][66][67][68] Many chemicals and long processing times are required for the modification of cellulose-based textiles.…”

Section: Introductionmentioning

confidence: 99%

Revisiting the sublimation printability of cellulose‐based textiles in light of ever‐increasing sustainability issues

Özen

Schneider

Buchmeiser

et al. 2022

Coloration Technology

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Sustainability, being a recent buzzword, has been given an increasing emphasis in all industry fields, especially in the textile industry, since it is one of the main contributing sectors to resource consumption and thus environmental pollution. Among them, coloration of textiles should be paid special attention due to offering enormous savings in terms of sustainability. Within all fibres, cotton, being one of the cellulosic fibres, has been the most widely used material alone or together with poly(ethylene terephthalate) (PET). Therefore, we focus on the coloration of cellulose‐based fibres and its blends with PET in this review. There is only one single coloration technique at the intersection of sustainability and coloration, that is, sublimation or heat transfer printing, because it is the most eco‐friendly approach for the coloration of textiles. There are many studies on this issue, in which either cellulose, that is, cotton, or the transfer paper is modified/treated. In spite of many attempts for sublimation printability of cotton and its blends with PET, they still have problems in terms of sustainability that limits its applicability. In light of ever‐increasing sustainability issues such as Agenda 2030, new developments are yet to be expected for achieving sustainable coloration of cellulose‐based textiles and their blends. Therefore, it is high time to revisit the sublimation printability of cellulose‐based textiles, to mention the latest developments considering nanotechnological advancements, and to give a future perspective in this field.

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“…[6][7][8][9][10]. Among these techniques, ozonation has the advantage of uniformly introducing peroxides on the polymer surfaces even with complex shapes.…”

Section: Introductionmentioning

confidence: 99%

Ozone Effect On the Properties of Aramid Fabric

Wang

Wiener

Militký

et al. 2017

Autex Research Journal

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The limitation of aramid fiber is its surface property, which results in its very poor interfacial adhesion to most of commercial resins. In order to improve the surface property of the aramid fiber, ozone treatment was carried out in this work. The aramid fabrics were evaluated in terms of surface morphology, wicking effect, tensile property, and ball bursting test. The results showed that the surface morphology of aramid fabrics did not undergo an obvious change; the wicking effect increased slightly with an increase in ozone treatment time; the tenacity and elongation of aramid fibers and fabrics did not significant change after ozone treatment, but the tenacity and elongation of aramid yarns showed significant improvement after ozone treatment, and increased with the increase of ozone treatment time; the ball bursting load and penetration displacement had a slight increase as well after ozone treatment. Therefore, ozone treatment could be one method to improve the surface property of the aramid fiber.

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Surface modification of cotton fabrics for sublimation printing

Cited by 9 publications

References 5 publications

Influence of sublimation transfer printing on alterations in the structural and physical properties of knitted fabrics

Influence of sublimation transfer printing on alterations in the structural and physical properties of knitted fabrics

Revisiting the sublimation printability of cellulose‐based textiles in light of ever‐increasing sustainability issues

Ozone Effect On the Properties of Aramid Fabric

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