TY - GEN
T1 - Surface plasma modification and coating properties of quartz fiber
AU - Xiang, Yan
AU - Chen, Weiwei
AU - Cheng, Huanwu
AU - Bu, Aiming
AU - Zhang, Yongfu
N1 - Publisher Copyright:
© Springer Nature Singapore Pte Ltd. 2019.
PY - 2019
Y1 - 2019
N2 - As an amorphous material, quartz fiber at high temperature is prone to cracks and protrusions on the surface. When the temperature reaches 950 °C, the crystallization behavior causes a sharp drop in mechanical properties, which greatly limits its industrial application. Aiming at this problem, this study used a liquid-phase non-electrode plasma electrolysis treatment device to achieve continuous surface treatment of quartz fiber cloth deposited alumina ceramic coating to protect its mechanical properties, at high temperatures and explored the effect of the number of processing on the morphology and properties of the coating. The test results showed that the alumina ceramic coating was successfully deposited on the surface of the insulating material quartz fiber cloth by liquid-phase plasma electrolysis technology, and the coating improved the high-temperature resistance of the quartz fiber. As the number of processing increased, the deposition amount of the coating increased, and the protective performance decreased. When the number of processing was one time, the mechanical properties of the fiber were the best, and the tensile strength after heat treatment was 54.76 MPa, which was obviously improved compared with the blank group fiber, 37.14%.
AB - As an amorphous material, quartz fiber at high temperature is prone to cracks and protrusions on the surface. When the temperature reaches 950 °C, the crystallization behavior causes a sharp drop in mechanical properties, which greatly limits its industrial application. Aiming at this problem, this study used a liquid-phase non-electrode plasma electrolysis treatment device to achieve continuous surface treatment of quartz fiber cloth deposited alumina ceramic coating to protect its mechanical properties, at high temperatures and explored the effect of the number of processing on the morphology and properties of the coating. The test results showed that the alumina ceramic coating was successfully deposited on the surface of the insulating material quartz fiber cloth by liquid-phase plasma electrolysis technology, and the coating improved the high-temperature resistance of the quartz fiber. As the number of processing increased, the deposition amount of the coating increased, and the protective performance decreased. When the number of processing was one time, the mechanical properties of the fiber were the best, and the tensile strength after heat treatment was 54.76 MPa, which was obviously improved compared with the blank group fiber, 37.14%.
UR - http://www.scopus.com/inward/record.url?scp=85063454522&partnerID=8YFLogxK
U2 - 10.1007/978-981-13-5947-7_9
DO - 10.1007/978-981-13-5947-7_9
M3 - Conference contribution
AN - SCOPUS:85063454522
SN - 9789811359460
T3 - Springer Proceedings in Physics
SP - 77
EP - 84
BT - Physics and Techniques of Ceramic and Polymeric Materials - Proceedings of Chinese Materials Conference 2018
A2 - Han, Yafang
PB - Springer Science and Business Media, LLC
T2 - Chinese Materials Conference, CMC 2018
Y2 - 12 July 2018 through 16 July 2018
ER -