Preparation, characterization and annealing behavior of nanostructured Al2O3 coating on quartz fiber by non-electrode plasma synthesis

Yan Xiang; Yongfu Zhang; Aiming Bu; Jingyu Deng; Yang Meng; Weiwei Chen; Huanwu Cheng; Lu Wang; Lin Lu; Maoyuan Li

doi:10.1016/j.ceramint.2019.05.056

Preparation, characterization and annealing behavior of nanostructured Al₂O₃ coating on quartz fiber by non-electrode plasma synthesis

Yan Xiang, Yongfu Zhang, Aiming Bu, Jingyu Deng, Yang Meng, Weiwei Chen^*, Huanwu Cheng, Lu Wang, Lin Lu, Maoyuan Li

^*Corresponding author for this work

School of Material Science and Engineering

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

In the present manuscript the patented non-electrode plasma electrolysis technique was successfully applied in order to deposit nano-structured Al₂O₃ ceramic coating on the quartz fiber. It was found that the grooves on the blank fiber were covered by Al₂O₃, accordingly decreasing the surface defects. In this case, the coating effectively improved the breaking strength of the quartz fiber at elevated temperatures. The coated fiber still exhibited relatively higher strength of 0.38 N/tex after annealing at 600 °C for 60 min, nearly three times as that of the blank fiber. Both the formation mechanism and the protection mechanism of the Al₂O₃ coating were systematically investigated. We believe that the non-electrode plasma electrolysis will find a wide range of applications in the surface modification of non-conductive fibers.

Original language	English
Pages (from-to)	15520-15525
Number of pages	6
Journal	Ceramics International
Volume	45
Issue number	12
DOIs	https://doi.org/10.1016/j.ceramint.2019.05.056
Publication status	Published - 15 Aug 2019

Keywords

AlO coating
Breaking strength
Mechanism
Non-electrode plasma synthesis
Quartz fiber

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10.1016/j.ceramint.2019.05.056

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title = "Preparation, characterization and annealing behavior of nanostructured Al2O3 coating on quartz fiber by non-electrode plasma synthesis",

abstract = "In the present manuscript the patented non-electrode plasma electrolysis technique was successfully applied in order to deposit nano-structured Al2O3 ceramic coating on the quartz fiber. It was found that the grooves on the blank fiber were covered by Al2O3, accordingly decreasing the surface defects. In this case, the coating effectively improved the breaking strength of the quartz fiber at elevated temperatures. The coated fiber still exhibited relatively higher strength of 0.38 N/tex after annealing at 600 °C for 60 min, nearly three times as that of the blank fiber. Both the formation mechanism and the protection mechanism of the Al2O3 coating were systematically investigated. We believe that the non-electrode plasma electrolysis will find a wide range of applications in the surface modification of non-conductive fibers.",

keywords = "AlO coating, Breaking strength, Mechanism, Non-electrode plasma synthesis, Quartz fiber",

author = "Yan Xiang and Yongfu Zhang and Aiming Bu and Jingyu Deng and Yang Meng and Weiwei Chen and Huanwu Cheng and Lu Wang and Lin Lu and Maoyuan Li",

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year = "2019",

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T1 - Preparation, characterization and annealing behavior of nanostructured Al2O3 coating on quartz fiber by non-electrode plasma synthesis

AU - Xiang, Yan

AU - Zhang, Yongfu

AU - Bu, Aiming

AU - Deng, Jingyu

AU - Meng, Yang

AU - Chen, Weiwei

AU - Cheng, Huanwu

AU - Wang, Lu

AU - Lu, Lin

AU - Li, Maoyuan

PY - 2019/8/15

Y1 - 2019/8/15

N2 - In the present manuscript the patented non-electrode plasma electrolysis technique was successfully applied in order to deposit nano-structured Al2O3 ceramic coating on the quartz fiber. It was found that the grooves on the blank fiber were covered by Al2O3, accordingly decreasing the surface defects. In this case, the coating effectively improved the breaking strength of the quartz fiber at elevated temperatures. The coated fiber still exhibited relatively higher strength of 0.38 N/tex after annealing at 600 °C for 60 min, nearly three times as that of the blank fiber. Both the formation mechanism and the protection mechanism of the Al2O3 coating were systematically investigated. We believe that the non-electrode plasma electrolysis will find a wide range of applications in the surface modification of non-conductive fibers.

AB - In the present manuscript the patented non-electrode plasma electrolysis technique was successfully applied in order to deposit nano-structured Al2O3 ceramic coating on the quartz fiber. It was found that the grooves on the blank fiber were covered by Al2O3, accordingly decreasing the surface defects. In this case, the coating effectively improved the breaking strength of the quartz fiber at elevated temperatures. The coated fiber still exhibited relatively higher strength of 0.38 N/tex after annealing at 600 °C for 60 min, nearly three times as that of the blank fiber. Both the formation mechanism and the protection mechanism of the Al2O3 coating were systematically investigated. We believe that the non-electrode plasma electrolysis will find a wide range of applications in the surface modification of non-conductive fibers.

KW - AlO coating

KW - Breaking strength

KW - Mechanism

KW - Non-electrode plasma synthesis

KW - Quartz fiber

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DO - 10.1016/j.ceramint.2019.05.056

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SN - 0272-8842

VL - 45

SP - 15520

EP - 15525

JO - Ceramics International

JF - Ceramics International

IS - 12

ER -

Preparation, characterization and annealing behavior of nanostructured Al₂O₃ coating on quartz fiber by non-electrode plasma synthesis

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Keywords

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