چکیده:
Considering increasing development of nano-technology science and its wide use in most
industries, textile industry was not excluded and manifested its capability in all fields accompanied
with other sciences and achieved remarkable progress. Since interdisciplinary scientific research
causes developing sciences and is attended by many specialists, in this research a beneficial step
was provided applying dress design and textile chemistry sciences for more productivity of
interdisciplinary discussions. In this study, the design of the drivers’ uniform and their selfcleaning
property were analyzed. In a way that; first, cotton fabric samples were treated using TiO2
nanoparticles and poly carboxylic agent. Then, cotton fabric self-cleaning amount were evaluated
and optimized. Based on the obtained results, drivers’ uniform design with self-cleaning property
against chemical and natural stains was gained, utilizing optimized amounts of TiO2 nanoparticles.
Therefore, the dress design applying nanotechnology discussions was effectively capable of having
self-cleaning property in order to discolor natural color stains like tomato, sour cherry water,
chocolate milk, gasoil, grease, oil, and chemical blue (C.I. Reactive Blue 19) and green (C.I. Direct
Green 1) regarding scientific principles.
خلاصه ماشینی:
org International Journal of Applied Arts Studies IJAPAS 2(4) (2017) 15–24 Designing and Developing the Self-Cleaning Property of Drivers’ Dress Using TiO2 Nanoparticles Taiebeh Asgharian-Dastenaiea, Ali Nazaria*, Sayed-Javad Derakhshanb aDepartment of Art and Architecture, Yazd Branch, Islamic Azad University, Yazd, Iran bDepartment of Cloth and Design, Yazd Branch, Islamic Azad University, Yazd, Iran Received 28 Febuary 2018; revised 11 March 2018; accepted 13 March 2018 Abstract Considering increasing development of nano-technology science and its wide use in most industries, textile industry was not excluded and manifested its capability in all fields accompanied with other sciences and achieved remarkable progress.
Based on the obtained results, drivers’ uniform design with self-cleaning property against chemical and natural stains was gained, utilizing optimized amounts of TiO2 nanoparticles.
Therefore, the dress design applying nanotechnology discussions was effectively capable of having self-cleaning property in order to discolor natural color stains like tomato, sour cherry water, chocolate milk, gasoil, grease, oil, and chemical blue (C.
Therefore, in this research, it is tried to provide and obtain discoloring property for removing natural stains of tomato, sour cherry water, chocolate milk, gasoil, grease, oil, and green and blue chemical stains applying appropriate concentrations of TiO2 nanoparticles and poly carboxylic stabilizing agent on cotton fabric; following that, the drivers’ dress design was dealt with considering scientific principals and fashion through new and absorbing aesthetic designs.
How natural stains of tomato, sour cherry water, chocolate milk, gasoil, grease, oil, and chemical green and blue were discolored through cotton fabrics with different concentrations of TiO2 nanoparticles under sunlight irradiation is exhibited in Fig 1.