Study on preparation and anti-UV properties of TiO<sub>2</sub> film on terylene

CHENG Ya; CHEN Zhuoming; ZHENG Yuansheng; XIN Binjie

Volume 35 Issue 4

Feb. 2022

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Article Navigation > Journal of Shanghai University of Engineering Science > 2021 > 35(4): 370-376

CHENG Ya, CHEN Zhuoming, ZHENG Yuansheng, XIN Binjie. Study on preparation and anti-UV properties of TiO2 film on terylene[J]. Journal of Shanghai University of Engineering Science, 2021, 35(4): 370-376.

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CHENG Ya, CHEN Zhuoming, ZHENG Yuansheng, XIN Binjie. Study on preparation and anti-UV properties of TiO₂ film on terylene[J]. Journal of Shanghai University of Engineering Science, 2021, 35(4): 370-376.

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Study on preparation and anti-UV properties of TiO₂ film on terylene

School of Textiles and Fashion, Shanghai University of Engineering Science, Shanghai 201620, China

Received Date: 2021-12-10
Accepted Date: 2021-12-10
Publish Date: 2022-02-23

Abstract

Abstract

Titanium dioxide/polyester (TiO₂/PET) ultraviolet (UV) resistant fabric was prepared by deposition of titanium dioxide on the surface of polyester fabric by magnetron sputtering. The effects of magnetron sputtering time and sputtering power on the UV resistance of the fabric during the preparation process were investigated. The UV absorption and shielding mechanism of TiO₂ thin films were analyzed, and the thermal insulation and thermal stability of the fabric were also detected. The results show that TiO₂ film deposited on the surface of PET can improve the UV resistance of the fabric, which is attributed to the good UV absorption capacity of TiO₂ film and the effective shielding ability of UV visible light. In addition, the roughness of TiO₂ film increases and the thickness decreases when the sputtering power is greater than 150 W, so when the sputtering power is 150 W and the sputtering time is 90 min, TiO₂/PET fabric has the strongest UV resistance, and its UV protection coefficient (UPF) is 1211.19. Simultaneously, the deposition of TiO₂ thin film endows the PET fabric with good thermal stability and heat insulation performance.
- magnetic sputtering,
- PET fabric,
- TiO₂ film,
- UV-resistant properties

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References(19)

References

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