Studies on Pyrolysis behaviour of Boron-containing phenolic resin/High-silica Fiberglass Fabric Ceramifying Composites

机译：含硼酚醛树脂/高二氧化硅玻璃纤维织物陶瓷复合材料的热解作业研究

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The boron-containing phenolic resin/high-silica fiberglass fabric ceramifying composites were prepared using muscovite micas loaded boron-containing phenolic resin (BPF) as matrix, high-silica fiberglass fabric as reinforcements. The boron-containing phenolic resin (BPF) reacted with the muscovite to form ceramic residue after thermal pyrolysis under high temperature. X-Ray Diffraction (XRD) analysis of the composites at different temperatures showed the formation of new crystalline phases as a result of reactions between the degradation residue of BPF and the muscovite. Electron probe micro-analyzer (EPMA) was used to explore the changes in microstructure and local micro-chemical composition after samples were pyrolyzed under high temperatures. The ceramic yield of the composites ranged from 84.39% to 75.23% when pyrolyzed 700 to 1300°C in air.

机译：使用Muscovite MICAS负载的含硼酚醛树脂（BPF）作为基质，高二氧化硅玻璃纤维织物作为增强剂制备含硼酚醛树脂/高二氧化硅玻璃纤维织物陶瓷复合材料。含硼的酚醛树脂（BPF）与槲皮标反应，在高温下热热解后形成陶瓷残留物。在不同温度下复合材料的X射线衍射（XRD）分析显示出在BPF和Muscocite的降解残余物之间的反应产生新的结晶相的形成。电子探针微分析仪（EPMA）用于探讨样品在高温下热解后微观结构和局部微化学组合物的变化。当在空气中热解700至1300℃时，复合材料的陶瓷产率范围为84.39％至75.23％。

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《International Conference on Materials Science Technology》|2013年||共6页
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Huang Zhixiong; Ding Jie; Qin Yan; Pei Yu;
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中图分类 TB3-53;
关键词
Phenolic Resin; Boron-Containing; Muscovite Micas; High-Silica Fiberglass; Ceramifying Composites;

机译：酚醛树脂;含硼;Muscovite云母;高硅玻璃纤维;陶瓷复合材料;

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Studies on Pyrolysis behaviour of Boron-containing phenolic resin/High-silica Fiberglass Fabric Ceramifying Composites

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