M. M. El‐Molla scite author profile

An attempt has been made to transfer print cotton and wool fabrics with disperse dyes through the use of a thin polymer layer (polyethylene film) placed between the transfer paper and the fabric. This would result in simultaneous transfer of the coloured design to the polyethylene film and bonding of the film to the fabric. Among the factors studied were the conditions of transfer printing as well as the weight and thickness of the polyethylene film. The produced prints were evaluated for colour strength, fastness properties as well as mechanical properties.

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Synthesis of Nanoscale Binders through Mini Emulsion Polymerization for Textile Pigment Applications

Abdou

El‐Molla

Hakeim

et al. 2013

Ind. Eng. Chem. Res.

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Different mini emulsion polymerizations were carried out with the combination of different concentration of anionic surfactant such as sodium dodecyl sulfate (SDS) or hydrophobic alkane such as (hexadecane), and/or different monomer ratios. The best comonomers composition that would lead to the best polymer latex properties to obtain nanoscale polymer latexes was studied. The polymer latexes in a size range between 156 and 65 nm by varying the SDS concentrations from 2 to 6 wt % were obtained, and also the particle size of the obtained polymer latexes decreases with the increases of hexadecane (HD) concentrations, and the best result was obtained with 4 wt % of a hexadecane. The best polymer latex properties in terms of particle size and binder softness were found in the best monomer ratio of BA:MMA:MAA (17.5:1.5:1.5) as the solid content was adapted to be 20%. Higher K/S values and improved crocking fastness are obtained with printing pastes containing prepared binder.

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Use of the Newly Synthesized Aqueous Polyurethane Acrylate Binders for Printing Cotton and Polyester Fabrics

El‐Molla¹,

El‐Sayad²,

El‐Kashouti³

et al. 2012

ACES

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The use of the four new synthesized polyurethane acrylate binders in the pigment print paste for screen printing cotton and polyester fabrics and pigment fixation through the polymerization process of the binder by using the thermofixation technique as well as the UV curing technique was studied. The effect of changing time and temperature of thermofixation, and the time of UV curing on the color strength, and prints fastness properties were also studied. The results showed that, the newly synthesized polyurethane acrylate binders could be successfully used for pigment fixation on cotton and polyester using the two fixation techniques and in general their prints possessed better color strength values as compared to those obtained upon using the selected commercial binders.

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M. M. El‐Molla

Synthesis of polyurethane acrylate oligomers as aqueous UV-curable binder for inks of ink jet in textile printing and pigment dyeing

Development of ecofriendly binders for pigment printing of all types of textile fabrics

Sublimation Transfer Printing of Cotton and Wool Fabrics

Synthesis of Nanoscale Binders through Mini Emulsion Polymerization for Textile Pigment Applications

Use of the Newly Synthesized Aqueous Polyurethane Acrylate Binders for Printing Cotton and Polyester Fabrics

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