Evolution in the surface modification of textiles: a review

Nadi, Ayoub; Boukhriss, Aïcha; Bentis, Aziz; Jabrane, Ezzoubeir; Gmouh, Saïd

doi:10.1080/00405167.2018.1533659

Cited by 56 publications

(44 citation statements)

References 168 publications

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“…The results of decomposition analysis of the oxygen peak of the treated samples allowed us to conclude that it is characterized by complicated structure and includes corresponding oxygen bonded with carbon (≈ 530,50-531,51 eV) and hydrogen (≈ 530,98-532,00 eV), as well as oxygen bonded with aluminum (≈ 529,98-531,80 eV). The bonds with carbon correspond to the composition of the textile material, and the bonds of oxygen with aluminum indicate the presence of aluminum oxide on the surface of the treated samples (Moulder et al 1992). Thus, one can suggest that the hydrophobicity of the surface of the coarse calico after treatment in a solution of AlCl 3 is explained by the formation of aluminum oxide lms.…”

Section: Resultsmentioning

confidence: 99%

The influence of technological parameters on the hygroscopic properties of textiles

Endiiarova

Osipov

Alexandrov

2021

Preprint

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In this paper the method of wet chemistry used for hydrophobization of coarse calico surface was described. It was found that hydrophobicity of coarse calico surface is achieved by the formation of aluminum oxide on the surface. The effect of soap solution temperature, aluminum chloride solution concentration, sample treatment time in aluminum chloride solution and heat treatment temperature on water absorption, contact angle, capillary absorption and calico moisture content was studied. The dependences of gyroscopic properties on the process parameters were obtained. Capillary absorption and water absorption of the test samples increased with increasing concentration of aluminum chloride solution. An increase in the processing time of coarse calico samples in an aluminum chloride solution of lead to a decrease in the hydrophobicity of the samples. The characters of the dependences of hygroscopic properties on the temperature of heat treatment and the temperature of the soap solution are similar.

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Section: Resultsmentioning

confidence: 99%

The influence of technological parameters on the hygroscopic properties of textiles

Endiiarova

Osipov

Alexandrov

2021

Preprint

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“…Sustainability is a holistic term covering a wide range of natural, social, and financial dimensions [15,19] Researchers of sustainable textiles proposed several methods and, since wet textile production is the most contaminated element of the textile industry, the best way to make textiles sustainable is to use sustainable chemicals for dyeing, printing, and finishing of textile substrates (Researchers constantly examine and encourage the use of Cyclodextrins (CDs) in textile production in this sense. [20] Cyclodextrins (CDs), which have been used in the medical, cosmetic, vegetable, and garment industries for decades, are renewable compounds. It is difficult to imagine that a planet does not have cyclodextrins at the moment [21] Cyclodextrins are used for the transmission in textile applications of functional properties such as UV protection, antifungal, flavor supply, antibacterial action, insecticide delivery, and dyeing.…”

Section: Advantages Of Cyclodextrinmentioning

confidence: 99%

Cyclodextrin usage in textile Industry

El-Sayed

Hassabo

2021

J.Text.color. pol. sci.

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N OWADAYS, there is a great interest in the textile industry for the production of functional textiles using environmentally friendly materials and processes. Cyclodextrins are cyclic oligosaccharides obtained by enzymatic degradation of starch truncated cone shape having a hydrophilic surface containing hydroxyl groups and a cavity with hydrophobic character which can form reversible inclusion complexes with various compounds. Several derivatives of β cyclodextrin have been synthesized to enable it to attach to textile fibers permanently. Also, different methods have been developed for grafting of native and modified β cyclodextrin on textile fibers. In this review the methods of application of β cyclodextrin on different textile substrates for obtaining various functional properties including printability, dyeability, and in finishing application as antibacterial, ultraviolet protection wastewater pollutant removal, and fragrance release properties.

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“…These antimicrobial textiles may also be useful for the people involved in sanitary-related work and those who are working in sewage treatment, where there is a high risk of getting infected. Surface modification of the textile including electrospinning, nanotechnologies, plasma treatment, polymerization, microencapsulation and sol–gel techniques has been done to impart some novel functional properties to textile, e.g., water-repellent, flame-retardant and antibacterial activity [ 7 ].…”

Section: Introductionmentioning

confidence: 99%

Antimicrobial textile: recent developments and functional perspective

2021

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Antimicrobial textiles are functionally active textiles, which may kill the microorganisms or inhibit their growth. The present article explores the applications of different synthetic and natural antimicrobial compounds used to prepare antimicrobial textiles. Different types of antimicrobial textiles including: antibacterial, antifungal and antiviral have also been discussed. Different strategies and methods used for the detection of a textile's antimicrobial properties against bacterial and fungal pathogens as well as viral particles have also been highlighted. These antimicrobial textiles are used in a variety of applications ranging from households to commercial including air filters, food packaging, health care, hygiene, medical, sportswear, storage, ventilation and water purification systems. Public awareness on antimicrobial textiles and growth in commercial opportunities has been observed during past few years. Not only antimicrobial properties, but its durability along with the color, prints and designing are also important for fashionable clothing; thus, many commercial brands are now focusing on such type of materials. Overall, this article summarizes the scientific aspect dealing with different fabrics including natural or synthetic antimicrobial agents along with their current functional perspective and future opportunities.

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Evolution in the surface modification of textiles: a review

Cited by 56 publications

References 168 publications

The influence of technological parameters on the hygroscopic properties of textiles

The influence of technological parameters on the hygroscopic properties of textiles

Cyclodextrin usage in textile Industry

Antimicrobial textile: recent developments and functional perspective

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