Kinetic Investigations on Dyeing of Different Polyester Fabrics Using Microwave Irradiation

Elshemy, Nagla; Elshakankery, M. H.; Shahien, S. M.; Haggag, K.; El‐Sayed, Hosam

doi:10.21608/ejchem.2017.1604.1131

Cited by 29 publications

(15 citation statements)

References 2 publications

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“…Fastness properties of the dyed samples were determined according to IsO standard methods. The specific tests were ISO 105-C06 (2010), color fastness to washing; IsO 105-E04:2013, color fastness to perspiration (acid and alkaline); and IsO 105-B02 (2014), color fastness to light and rubbing [24][25][26][27] .…”

Section: Fastness Propertiesmentioning

confidence: 99%

Use of Sustainable Energy as a Heating Source to Improve Dyeability and Other Properties of Wool and Polyamide-6 Fabrics with Nano-Silica

Eldin

Elshemy

El-Gabry³

2020

Egypt. J. Chem.

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T hIs study deals with the utilization of silicon dioxide nanoparticles (siO 2 NPs) to treatment of wool and polyamide 6 fabrics. The fabrics treated with different concentrations of siO 2 NPs (5-20 g/l) using pad-dry-cure technique. The size of nano silicon dioxide particles measured with TEM. The surface morphology and surface chemical elements of treated and untreated fabrics were characterized through high-resolution scanning Electron Microscopy (sEM) and Dispersive X-Ray spectroscopy (EDX), respectively. The untreated and treated wool and polyamide fabrics were characterized by FTIR. The effect of the treatment on dyability of both wool and polyamide 6 fabrics using different dyestuffs such as acid, basic and direct dyes is studied with applying innovation technique to save energy, water and time. For comparison, the same dyeing technique was carried out by using conventional heating technique. The colour strength and the fastness tests of the untreated and treated wool and polyamide 6 fabrics were evaluated. The effects of siO 2 NPs on the physical and multifunctional properties of the treated sample such as weight, thickness, UPF, antibacterial activity and moisture regain % were determined. The obtained results indicate that the optimization of dyeing process parameters as well as optimized treatment of both wool and polyamide fabrics with siO 2 NPs has a significant influence on the obtained shades and fastness properties.

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Section: Fastness Propertiesmentioning

confidence: 99%

Use of Sustainable Energy as a Heating Source to Improve Dyeability and Other Properties of Wool and Polyamide-6 Fabrics with Nano-Silica

Eldin

Elshemy

El-Gabry³

2020

Egypt. J. Chem.

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“…While the other author [44] was cared about to a comparative study of the dyeability of polypropylene fibres with a disperse dye via microwave as well as ultrasonic energy. For this the microwave dyeing was carried out at different energy level (L, M-L, M, M-H and H) for different interval times (1 to 5 min) while in the case of ultrasonic wave dyeing was carried at different temperature (20, 40, 60 and 80 °C) and for different times (1-30 min) in the presence and absent of the carrier.…”

Section: Dyeing Of Wool Fabricmentioning

confidence: 99%

New Trend in Textile Coloration Using Microwave irradiation

Elshemy

Haggag²

2019

J.Text.color. pol. sci.

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I N A MILLENNIAL world we need new manufacturing technologies if we are to meet the demands of a new generation of consumers. Microwave technologies facilitate that evaluation, let's investigate how microwave technology is disrupting every sector of textile coloration. The purpose of this review is to evaluate the current status of microwave processing technology, and to find out applications of unique properties leading to replacement of conventional techniques due to reduced cost, energy, and time, and enhance the properties of the different fabric for end use. Furthermore, we will focus on the future of textile coloration and developments employing the microwave processing.

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“…They are obtained from natural resources and renewable, and therefore, their uses will continue to inspire scientists due to their ecological, antimicrobial, and UVprotection characteristics [1][2][3][4][5][6]. The revival use of natural dyes, as well as devising new methods of techniques in textile coloration, is of prime ecological interest [7][8][9][10]. However, the use of natural dyes in textile coloration is yet limited due to many reasons such as shades, cost, and fastness properties.…”

Section: Introductionmentioning

confidence: 99%

Novel green coloration of cotton fabric. Part I: Bio-mordanting and dyeing characteristics of cotton fabrics with madder, alkanet, rhubarb and curcumin natural dyes

2020

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Kinetic Investigations on Dyeing of Different Polyester Fabrics Using Microwave Irradiation

Cited by 29 publications

References 2 publications

Use of Sustainable Energy as a Heating Source to Improve Dyeability and Other Properties of Wool and Polyamide-6 Fabrics with Nano-Silica

Use of Sustainable Energy as a Heating Source to Improve Dyeability and Other Properties of Wool and Polyamide-6 Fabrics with Nano-Silica

New Trend in Textile Coloration Using Microwave irradiation

Novel green coloration of cotton fabric. Part I: Bio-mordanting and dyeing characteristics of cotton fabrics with madder, alkanet, rhubarb and curcumin natural dyes

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