Functional textile surface production by analysing the mechanical properties of cotton, bamboo and linen woven surfaces

Abstract

In the textile industry, it is seen that the use of nanomaterials is increasing to meet the demands for long-lasting and sustainable products. This research aims to improve the mechanical properties of 1×1 plain weave cotton, bamboo and linen surfaces made of natural yarns by coating them with ZnO, TiO2 and SiO2 to provide sustainable natural life and create a sustainable functional textile surface. For this reason, coatings were made with nanoparticles and applied to textile surfaces. The blade (stripping knife) coating method with subsequent dosing was used when the coating agent was liquid with an appropriate viscosity value. The surface morphology of the treated fabric was characterized by SEM, EDS and FT-IR analysis. Mechanical properties were analysed by thickness, weight and tear strength tests and antibacterial activity against S. Aureus and E. Coli bacteria were tested. When the results were examined, it was determined that cotton, linen and bamboo surfaces, which did not have antibacterial properties except for E. Coli (49.56%), showed antibacterial properties (100%) in bamboo and linen after coating with ZnO and TiO2 , and in bamboo after coating with SiO2 . The coating material also caused different effects in terms of thickness, weight and strength change.