Abstract:
Spin coating method is widely used to coat
material surfaces with a thin coating in the electronic industry.
However, the use of spin coating in textile surfaces is
challenging due to high porosity and the hydrophilicity of
textile materials. Here, the use of spin coating on textile
surfaces was thoroughly investigated. This method is
advantageous due to simplicity and relative ease of the process
and ability to obtain thin and uniform coating. The
experiments are carried using Titanium Dioxide as the coating
material and the suitable fabric type is selected from
Polyamide/Elastane and Cotton/ Polyester/ Elastane. The effect
of an array of spin coating parameters such as rotational
velocity, fiber type, concentration of solution and the binding
agent was examined. Surface characterization, elemental
analysis, air permeability and moisture management
experiments were carried out to determine the coverage and
effectiveness of the coating. It was found that the spin coating
of Titanium Dioxide using Polyurethane as the binding agent
onto Cotton/ Polyester/ Elastane blended, knitted fabric
exhibits good adhesion and durability. Furthermore, it is
recommended to use 3500 revolutions per minute with 0.5%
concentration of TiO2 solution to achieve optimum coverage of
the coating.
Citation:
N. Dissanayake, S. Abeysundara and N. D. Wanasekara, "Investigating the Feasibility of Applying Spin Coating Method for Textiles," 2020 Moratuwa Engineering Research Conference (MERCon), 2020, pp. 448-452, doi: 10.1109/MERCon50084.2020.9185265.