期刊
JOURNAL OF ALLOYS AND COMPOUNDS
卷 965, 期 -, 页码 -出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.jallcom.2023.171460
关键词
Ablation resistance; Carbon fiber; Char layer; High heat-flux; Silicone rubber
Zr-doped silicone-rubber (SR) ablative coatings with improved ablation properties were prepared by blending synthesized zirconium-doped polydimethylsiloxane and short-cut carbon fibers (Zr-PDMS-CF). Compared to carbon fiber modified pure polydimethylsiloxane (PDMS-CF) and ZrO2-modified PDMS-CF (ZrO2 @PDMS-CF), Zr-PDMS-CF showed decreased mass and linear ablation rates and enhanced compressive strength of the char layer. The distribution of t-ZrO2 crystals and zirconium elements in the char layer contributed to the improved resistance against oxidation and erosion.
In order to improve the ablative properties of silicone-rubber (SR) based ablative coatings under high heat flow, firm char layer required to be formed during ablation. Herein, Zr-doped SR composites with significantly improved ablation properties were prepared by co-blending synthesized zirconium-doped polydimethylsiloxane and short-cut carbon fibers (Zr-PDMS-CF). Compared to carbon fiber modified pure polydimethylsiloxane (PDMS-CF) and ZrO2-modified PDMS-CF (ZrO2 @PDMS-CF), the mass ablation rates were decreased by 28.96% and 28.53%, respectively, and the linear ablation rates were decreased by 47.88% and 38.20%, respectively. Compared to PDMS-CF and ZrO2 @PDMS-CF, the compressive strength of char layer of Zr-PDMS-CF was also significantly enhanced. In addition to the well distribution of t-ZrO2 crystals in the char layer of Zr-PDMS-CF, the homogeneous distribution of zirconium elements was also beneficial to protect CFs skeleton from severe oxidation. The char layer of Zr-PDMS-CF thus possessed the ability to resist erosion under high heat flow, protecting underneath materials from further oxidation and erosion.
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