材料科学
硅橡胶
复合材料
热重分析
玻璃微球
烧蚀
硅酮
微球
化学工程
工程类
航空航天工程
作者
Jinfeng Tian,Liwei Yan,Hao Zhang,Shengtai Zhou,Shuang Xia,Huawei Zou
出处
期刊:Polymers
[Multidisciplinary Digital Publishing Institute]
日期:2022-09-14
卷期号:14 (18): 3846-3846
被引量:20
标识
DOI:10.3390/polym14183846
摘要
For thermal protection materials (TPMs) which are used to protect space vehicles from extreme thermomechanical environments, the thermal conductivity of the original material and the char layer that has formed during ablation plays a significant role in determining the ablation performance. In order to investigate this, in this study, we introduced glass hollow microspheres (GHMs), phenolic hollow microspheres (PHMs), and acrylonitrile-methyl methacrylate copolymer hollow microspheres (AMHMs) into silicone rubber (SR), and the ablation performance of these composites was systematically studied. The thermogravimetric results showed that the residue yield of the SR composites was increased with the incorporation of the hollow microspheres. Compared to the SR composites without the hollow microspheres, the residue weight values under 800 °C (R800) of the SR composites with the 30 parts of fumed silica per hundred of the SR (phr) addition of GHMs, PHMs, and AMHMs were increased from 10.11% to 21.70%, 18.31%, and 20.83%, respectively. The ablation tests showed that the addition of the AMHMs enhanced the ablation performance of the SR composites because the linear ablation rates and the backplane temperature were clearly decreased when compared to the SR composites without the hollow microspheres. This work provides an effective and potential method for preparing thermal protection materials with an improved ablation performance.
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