Ceramic matrix composites derived from CrSi2</sub>-filled silicone polycyclic network

M. A. Schiavon; I. V. P. Yoshida

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Ceramic matrix composites derived from CrSi2-filled silicone polycyclic network

机译：CrSi2 填充的硅多环网络衍生的陶瓷基复合材料

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Ceramic matrix composites (CMC) were prepared by the active-filler-controlled polymer pyrolysis, using a siloxane polycyclic network filled with CrSi2. The starting CrSi2-filled polysiloxane was pyrolyzed in both nitrogen and argon atmospheres, up to 1450°C. During the pyrolysis in nitrogen atmosphere, the CrSi2 particles reacted with N2, and also with carbon from the preceramic polymer binder, still complete consumption of the filler particles. Such reactions led to a dramatic change in the composition and microstructure of the resulting ceramic monoliths, which displayed linear expansion of 1.7%. In argon atmosphere, the CrSi2 particles acted as inert filler during the pyrolysis process. The final CMC compositions obtained in N2 and Ar atmospheres were Cr0.62C0.25N0.03-Si3N4-Cr3C2 and SiOxCy-SiC-CrSi2, respectively.

机译：利用填充有CrSi2的硅氧烷多环网络，通过活性填料控制的聚合物热解制备了陶瓷基复合材料（CMC）。将起始CrSi2 填充的聚硅氧烷在氮气和氩气气氛中加热至1450°C。在氮气氛下热解过程中，CrSi2 颗粒与N2 以及与陶瓷前聚合物粘合剂中的碳反应，仍然完全消耗了填料颗粒。此类反应导致所得陶瓷整体结构的组成和微观结构发生巨大变化，显示出1.7％的线性膨胀。在氩气氛中，CrSi2 颗粒在热解过程中充当惰性填料。在N2 和Ar气氛中获得的最终CMC组成为Cr0.62 C0.25 N0.03 -Si3 N4 -Cr3 < / sub> C2 和SiOx Cy -SiC-CrSi2 。

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《Journal of Materials Science》 |2004年第14期|4507-4514|共8页
作者
M. A. Schiavon; I. V. P. Yoshida;
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State University of Campinas (UNICAMP) Institute of Chemistry;

State University of Campinas (UNICAMP) Institute of Chemistry;

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Ceramic matrix composites derived from CrSi2-filled silicone polycyclic network

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