研究碳纤维增强 PEKK、BMI 和酚醛复合材料在 Jet-A1/air 火焰冲击下的火焰特性和燃烧行为

IF 2 4区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
R. Ogabi, B. Manescau, K. Chetehouna, S. Senave
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引用次数: 0

摘要

本文对一种煤油/空气燃烧器(根据美国联邦航空局提出的 ISO 2685 标准设计的 NexGen 燃烧器)进行了实验研究,该燃烧器用于在消防安全领域产生冲击材料样品的火焰/燃烧气体。本研究的目的是确定该燃烧器的特性,并通过实验手段更好地了解等效比对气体温度(热电偶)、热通量(热通量计)和气体排放物空间分布的影响。因此,在等效比临界值等于 1.03 时,测得的火焰温度、热通量和热释放率都会增加。此外,还对复合材料进行了热解试验,碳-酚醛、碳-BMI 和碳-PEKK 材料的对比分析结果表明,碳-PEKK 材料的质量损失最小,背面温度最高,材料无明显分层,气体排放物浓度最低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation of the flame properties and fire behavior of carbon-reinforced PEKK, BMI and phenolic composites impacted by Jet-A1/air flames

This paper provides an experimental investigation of a kerosene/air burner (the NexGen burner designed on the FAA's proposed ISO 2685 standard), which is used to generate flame/burnt gases impinging on material samples in the field of fire safety. The purpose of this study is to characterize this burner, and experimental means are implemented to better understand the effects of the equivalence ratio on the spatial distribution of the gas temperature (thermocouples), the heat flux (heat flux gauge), and gas emission species. Hence, the measured flame temperature, heat flux, and heat release rate increase up to a critical value of equivalence ratio equal to 1.03. Furthermore, a pyrolysis test was carried out on composite materials and the results of the comparative analysis of carbon-phenolic, carbon-BMI, and carbon-PEKK materials show that carbon-PEKK had the lowest mass loss, highest back-face temperature without significant material delamination, and the lowest concentration of gas emission species.

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来源期刊
Fire and Materials
Fire and Materials 工程技术-材料科学:综合
CiteScore
4.60
自引率
5.30%
发文量
72
审稿时长
3 months
期刊介绍: Fire and Materials is an international journal for scientific and technological communications directed at the fire properties of materials and the products into which they are made. This covers all aspects of the polymer field and the end uses where polymers find application; the important developments in the fields of natural products - wood and cellulosics; non-polymeric materials - metals and ceramics; as well as the chemistry and industrial applications of fire retardant chemicals. Contributions will be particularly welcomed on heat release; properties of combustion products - smoke opacity, toxicity and corrosivity; modelling and testing.
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