SiBN(C)陶瓷纤维因其优异的性能(高温稳定性、高温抗蠕变和高温抗氧化性能等)被认为是高温高性能陶瓷基复合材料的理想增强体.研究了SiBN(C)陶瓷纤维的热稳定性能及微观结构,探索了SiBN(C)陶瓷纤维在1 100~1 500℃的抗氧化过程,并研究了C含量对SiBN(C)陶瓷纤维介电性能的影响.结果表明:SiBN(C)陶瓷纤维在高温热处理至1 600℃的N2气氛下仍然呈现无定形结构;HT-TGA结果表明该SiBN(C)陶瓷纤维具有良好的高温热稳定性,该陶瓷纤维的热失重率(1 450℃,N2气氛)仅为1.5wt%;同时SiBN(C)纤维也表现出优良的高温抗氧化性能,SiBN(C)陶瓷纤维在1 400℃,空气中处理5h后,纤维致密且无裂纹,XRD分析表明SiBN(C)陶瓷仍然呈现无定形结构,1 500℃处理5h后,SiBN (C)陶瓷纤维开始出现皮芯结构,并且出现微晶现象;XRD、SEM和EDX等测试手段表明氧化后样品的表面主要以SiO2微晶形式存在;介电性能研究表明当C含量低至0.1wt%时,SiBN(C)陶瓷纤维的介电常数为2.1,介电损耗为0.001 7(频率为10 GHz).性能评价说明该SiBN(C)陶瓷纤维可满足高温透波材料对增强体的要求.
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