Add to ORKGThis work is focused on the characterisation of the physical and surface properties of plasma coated wool fabric. A thin film was deposited on wool fabric samples by means of the plasma polymerisation of hexamethyldisiloxane (HMDSO) and differences between such plasma-treated and untreated fabrics were evaluated. The films deposited were characterised by means of Fourier transform infrared (FTIR) spectroscopy. Also the surface morphology of samples was studied using a scanning electron microscope (SEM). Hydrophobic properties of the samples were tested using the water drop test. The results show that by plasma polymerisation, hydrophobic properties of the wool surface change to super hydrophobic. The main aim of the HMDSO/N2 plasma polymeri...
To improve the dimensional properties of wool fabric, two kinds of silicone polymers are applied to...
Surface properties of textile are important factors for the end-use materials properties. These surf...
We describe the hydro- and oleo-repellent modification of pure cashmere and wool/nylon textiles by m...
238-244This paper reports a novel approach for surface modification of 100 % cotton and 100 % polye...
A new fabric with potential in medical textiles has been developed by application of a surface coati...
A three-step plasma treatment, including surface activation with argon, surface functionalization wi...
Purpose - Plasma polymerization is a very promising technique to produce functional textile material...
In this study, wool fibers arc modified by low frequency plasma polymerization of acrylic acid regar...
Previous investigation results revealed that after the Low-Temperature Plasma (LTP) treatment, the h...
The aim of this work is to develop hydrophobic coatings on leather materials by plasma polymerisatio...
Three different silicone polymer systems, such as aminofunctional, epoxyfunctional, and hydrophilic ...
Previous investigation results revealed that after the low temperature plasma (LTP) treatment, the h...
The effect of plasma treatment using various gases on the end use properties of wool fabrics was inv...
We performed atmospheric pressure plasma treatments of pure cashmere and wool/cashmere textiles with...
The pre-treatment of textile materials by non-thermal plasma technologies can offer many advantages ...
To improve the dimensional properties of wool fabric, two kinds of silicone polymers are applied to...
Surface properties of textile are important factors for the end-use materials properties. These surf...
We describe the hydro- and oleo-repellent modification of pure cashmere and wool/nylon textiles by m...
238-244This paper reports a novel approach for surface modification of 100 % cotton and 100 % polye...
A new fabric with potential in medical textiles has been developed by application of a surface coati...
A three-step plasma treatment, including surface activation with argon, surface functionalization wi...
Purpose - Plasma polymerization is a very promising technique to produce functional textile material...
In this study, wool fibers arc modified by low frequency plasma polymerization of acrylic acid regar...
Previous investigation results revealed that after the Low-Temperature Plasma (LTP) treatment, the h...
The aim of this work is to develop hydrophobic coatings on leather materials by plasma polymerisatio...
Three different silicone polymer systems, such as aminofunctional, epoxyfunctional, and hydrophilic ...
Previous investigation results revealed that after the low temperature plasma (LTP) treatment, the h...
The effect of plasma treatment using various gases on the end use properties of wool fabrics was inv...
We performed atmospheric pressure plasma treatments of pure cashmere and wool/cashmere textiles with...
The pre-treatment of textile materials by non-thermal plasma technologies can offer many advantages ...
To improve the dimensional properties of wool fabric, two kinds of silicone polymers are applied to...
Surface properties of textile are important factors for the end-use materials properties. These surf...
We describe the hydro- and oleo-repellent modification of pure cashmere and wool/nylon textiles by m...