High-temperature stability of low-oxygen silicon carbide fiber heat-treated under different atmosphere

T. SHIMOO; K. OKAMURA; M. ITO

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High-temperature stability of low-oxygen silicon carbide fiber heat-treated under different atmosphere

机译：不同气氛下热处理的低氧碳化硅纤维的高温稳定性

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The effects of heat-treating atmosphere on the thermal stability of low-oxygen silicon carbide fiber were investigated. Heat-treatment of EB-cured PCS fiber were conducted at 1573 K in argon, nitrogen or vacuum of 10~(-6) atm. Subsequently the fibers were exposed to 1873 K in argon. The strength of fibers were strongly influenced by the heat-treating atmosphere. When heat-treated in nitrogen, the fibers absorbed nitrogen. High-temperature exposure caused severe degradation of strength owing to the decomposition of silicon oxycarbonitride phase. When heat-treated in vacuum, the fiber surface was smooth and pore-free, minimizing the degradation of strength at high temperature.

机译：研究了热处理气氛对低氧碳化硅纤维热稳定性的影响。 EB固化的PCS纤维在1573 K的氩气，氮气或10〜（-6）atm的真空中进行热处理。随后，纤维在氩气中暴露于1873K。纤维的强度受到热处理气氛的强烈影响。当在氮气中热处理时，纤维吸收了氮。由于碳氧氮化硅相的分解，高温暴露导致强度的严重降低。在真空中进行热处理时，纤维表面光滑无孔，最大程度降低了高温下的强度下降。

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《Journal of Materials Science》 |2000年第15期|共7页
作者
T. SHIMOO; K. OKAMURA; M. ITO;
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1. High-temperature stability of low-oxygen silicon carbide fiber heat-treated under different atmosphere [J] . T. SHIMOO, K. OKAMURA, M. ITO Journal of Materials Science . 2000,第15期

机译：不同气氛下热处理的低氧碳化硅纤维的高温稳定性
2. Thermal stability of low-oxygen silicon carbide fibers (Hi-Nicalon) in carbon monoxide [J] . T. Shimoo, K. Okamura, T. Morita Journal of Materials Science . 2003,第14期

机译：一氧化碳中低氧碳化硅纤维（Hi-Nicalon）的热稳定性
3. Chemical, mechanical and microstructural characterization of low-oxygen containing silicon carbide fibers with ceramic coatings [J] . Bansal NP., Chen YL. Journal of Materials Science . 1998,第22期

机译：含陶瓷涂层的低氧碳化硅纤维的化学，机械和微观结构表征
4. Effect of Al2O3 Fibers on the High-Temperature Stability of Silicone Elastomer [C] . Yiying Yao, Guo-Quan Lu, Dushan Boroyevich, CPES annual power electronics conference . 2014

机译：Al2O3纤维对有机硅弹性体高温稳定性的影响
5. High-temperature rheology of a continuous-fiber-reinforced glass-ceramic composite (silicon carbide/anorthite). [D] . Nair, Balakrishnan G. 1998

机译：连续纤维增强的玻璃陶瓷复合材料（碳化硅/钙长石）的高温流变学。
6. Erratum: Polozov I. et al. Fabrication of Silicon Carbide Fiber-Reinforced Silicon Carbide Matrix Composites Using Binder Jetting Additive Manufacturing from Irregularly-Shaped and Spherical Powders. Materials 2020 13 1766 [O] . Igor Polozov, Nikolay Razumov, Dmitriy Masaylo, 2020

机译：错误：PolozovI.等。碳化硅纤维增强碳化硅基质复合材料的制造使用粘合剂喷射添加剂制造不规则形状和球形粉末。材料2020131766
7. Preparation of silicon carbide/carbon fiber composites through high-temperature spark plasma sintering [O] . Ehsan Ghasali, Masoud Alizadeh, Amir Hossein Pakseresht, 2017

机译：高温放电等离子烧结制备碳化硅/碳纤维复合材料

High-temperature stability of low-oxygen silicon carbide fiber heat-treated under different atmosphere

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