微卷曲陶瓷纤维的气相生长及其性能

Le Journal De Physique Colloques Pub Date : 1995-06-01 DOI:10.1051/JPHYSCOL:19955125

S. Motojima, I. Hasegawa, H. Iwanaga

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引用次数: 0

摘要

采用金属杂质活化化学气相沉积或气相金属化法制备了碳、SiC、si3n4、TiC、ZrC和HfC微卷曲纤维。对其生长条件、形貌、生长机理及一些性能进行了研究。以乙炔为碳源，以过渡金属、金属碳化物、MoS 2、Ti 2o3、Ni单晶板等多种粉末或板为催化剂，在650 ~ 850℃的温度下制备了双卷碳纤维。以焦化稻壳和/或SiO为硅源，Ni、Cr或Fe为催化剂，在1400 ~ 1500℃下制备了三卷曲SiC纤维。在1050 ~ 1250℃的温度下，采用Pt+Si或Pd+Si混合催化剂，采用pc13活化CVD工艺在石墨基体上制备了双线圈TiC纤维。

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Vapour Growth of Micro-Coiled Ceramic Fibers and their Properties

Micro-coiled fibers of carbon, SiC, Si 3 N 4 , TiC, ZrC and HfC were prepared by a metal-impurity activated chemical vapor deposition or vapour phase metallizing of the coiled carbon fibers. The growth conditions, morphology, growth mechanism and some properties were examined. The double-coiled carbon fibers were prepared using acetylene as a carbon source and various powders or plates of transition metals, metal carbides, MoS 2 , Ti 2 O 3 , and Ni single crystal plate as a catalyst at 650-850°C. The triple-coiled SiC fibers were prepared using coked rice husks and/or SiO as a Si-source and Ni, Cr or Fe as a catalyst at 1400-1500°C. The double-coiled TiC fibers were prepared by the PC1 3 activated CVD process on a graphite substrate using a Pt+Si or Pd+Si mixed catalyst at 1050-1250°C.

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Le Journal De Physique Colloques

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