چکیده:
Sunlight has energetic radiations like ultraviolet that exposed to it for specific time limit causes
making vitamin D and bone in body. On the other hand, prolonged exposure to ultraviolet energetic
irradiations available in sunlight could lead to irremediable damages such as eye and skin diseases
for human beings. In this research, it is tried to create durable design using photochromic dyes
sensitive to light and printing conventional process in order to safety against ultraviolet utilizing
coloured diversity. To do this, polyester fabrics were put under printing treatment and printed
samples were exposed to different irradiations such as sunlight, fluorescent, and D65. Finally,
coloured changes were measured and compared with each other by evaluating monochromatic
compounds amounts (red, blue, and yellow) of each printed sample and under mentioned
irradiations. One of the findings of research is durable and effective protective alarm against
ultraviolet through created coloured diversity for child’s garment that was successfully obtained by
conducting this research.
خلاصه ماشینی:
org International Journal of Applied Arts Studies IJAPAS 3(4) (2018) 61–70 Simultaneous and Durable Design of Colourful Diversity and Protective Alarms against Ultraviolet on Child's Apparel Mahbobeh Esrafiliana, Ali Nazarib*, Navid Khalesic aDepartment of Art and Architecture, Yazd Branch, Islamic Azad University, Yazd, Iran bAssociate Professor at Department of Art and Architecture, Yazd Branch, Islamic Azad University, Yazd, Iran cAssistant Professor at Department of Art and Architecture, Yazd Branch, Islamic Azad University, Yazd, Iran Received 14 December 2018; revised 28 December 2018; accepted 03 January 2019 Abstract Sunlight has energetic radiations like ultraviolet that exposed to it for specific time limit causes making vitamin D and bone in body.
In this research, it is tried to attend child’s garment durable design accompany with developing and enhancing protection and alarm announcement against ultraviolet available in sunlight using photochromic dyes.
Afterwards, printed fabrics were exposed to different irradiations of sunlight, fluorescent, and D65 and unsuitable irradiation condition for the child worn that garment could be obtained by observing colour change and in fact simultaneous and durable design of coloured diversity and announcement of protective alarms against ultraviolet would be achieved.
Acquired results from illustrated images in Fig 9 confirm that ultraviolet irradiations available in sunlight could more effectively reveal yellow colour exists in photochromic dye than other applied irradiations and are further warning for a child that used aforementioned apparel.
Conclusion In this research, simultaneous and stable design of colourful diversity and announcement of protective alarms on child’s garment against ultraviolet utilizing photochromic dyes are considered.