Improving the ablation performance of largely deformed silicone rubber-based composites under coupled mechanical-thermal-oxidative conditions by implementing deformable carbon fiber fabrics

IF 8.3 1区 材料科学 Q1 MATERIALS SCIENCE, COMPOSITES
Zhaohui Lu, Shengtai Zhou, Liwei Yan, Yue Tian, Huawei Zou, Xiancheng Ren
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Abstract

Silicone rubber-based composites are used as thermal protection materials due to their large deformability and excellent thermal insulation properties. In this study, two types of commercially available silicone rubbers were selected as the matrices for preparing flexible thermal protection materials. The influence of applied strain rates on the microstructure, ablation and ceramifiable behavior of silicone rubbers was studied. The research showed that the ablation performance of silicone rubbers deteriorated greatly at large strain rates. The reinforcement using deformable carbon fiber fabrics was proposed to effectively counter the deterioration of the ablative properties incurred by applying external strain. The back-face temperature reached as low as 186 °C when the samples were ablated at above 1000 °C for 50s at a strain rate of 20 %. The proposed strategy was proved helpful in developing high performance flexible thermal protection systems that exhibit promising application in the fields of aerospace and fire protection among others.

Abstract Image

在机械-热氧化耦合条件下,通过采用可变形碳纤维织物提高大变形硅橡胶基复合材料的烧蚀性能
硅橡胶基复合材料具有较大的变形能力和优异的隔热性能,因此被用作热保护材料。本研究选择了两种市售硅橡胶作为制备柔性热防护材料的基体。研究了施加应变速率对硅橡胶微观结构、烧蚀和可陶瓷化行为的影响。研究表明,硅橡胶的烧蚀性能在大应变速率下会大大降低。研究人员提出了使用可变形碳纤维织物进行加固的方法,以有效解决施加外部应变导致的烧蚀性能恶化问题。当样品在应变率为 20% 的条件下于 1000°C 以上的温度下烧蚀 50 秒时,其背面温度低至 186°C。事实证明,所提出的策略有助于开发高性能柔性热保护系统,该系统在航空航天和防火等领域的应用前景广阔。
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来源期刊
Composites Science and Technology
Composites Science and Technology 工程技术-材料科学:复合
CiteScore
16.20
自引率
9.90%
发文量
611
审稿时长
33 days
期刊介绍: Composites Science and Technology publishes refereed original articles on the fundamental and applied science of engineering composites. The focus of this journal is on polymeric matrix composites with reinforcements/fillers ranging from nano- to macro-scale. CSTE encourages manuscripts reporting unique, innovative contributions to the physics, chemistry, materials science and applied mechanics aspects of advanced composites. Besides traditional fiber reinforced composites, novel composites with significant potential for engineering applications are encouraged.
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