Processing and properties of glass-bonded silicon carbide membrane supports

Su Chang Kim; Young-Wook Kim; In-Hyuck Song

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Processing and properties of glass-bonded silicon carbide membrane supports

机译：玻璃粘结碳化硅膜支撑件的加工与性能

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Porous SiC membrane supports were fabricated from SiC and glass frit at a temperature as low as 850 °C in air by a simple pressing and heat-treatment process. The effects of the initial SiC particle size and frit content on the porosity, flexural strength, and air permeation of the membrane supports were investi-gated. During heat-treatment, the glass frit transformed to a viscous glass phase, which acted as a bonding material between SiC particles and as a protecting layer for severe oxidation of SiC particles. The porosity of the porous SiC membrane supports could be controlled within a range of 37-46% with the present set of processing conditions. The typical flexural strength, permeability, and specific air flow rate of the porous membrane supports fabricated using 23 μm SiC particles with 15wt% glass frit were 75MPa, 4.2 × 10~(-13) m~2, and 32.4L/min/cm~2, respectively.

机译：通过简单的压制和热处理方法在空气中的温度低至850℃的温度下由SiC和玻璃玻璃料制成多孔SiC膜载体。初始SiC粒度和玻璃料含量对膜载体的孔隙率，弯曲强度和空气渗透的影响是对膜胶合的。在热处理期间，将玻璃料转变为粘性玻璃相，其作为SiC颗粒之间的粘合材料和作为SiC颗粒严重氧化的保护层。通过本发明的加工条件，多孔SiC膜载体的孔隙率可以控制在37-46％的范围内。使用23μmSiC颗粒制造的多孔膜载体的典型弯曲强度，渗透性和特定空气流速，使用15wt％玻璃料为75MPa，4.2×10〜（-13）m〜2和32.4L / min / cm 〜2分别。

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《Journal of the European Ceramic Society》 |2017年第4期|共8页
作者
Su Chang Kim; Young-Wook Kim; In-Hyuck Song;
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Functional Ceramics Laboratory Department of Materials Science and Engineering The University of Seoul Seoul 02504 Republic of Korea;

Functional Ceramics Laboratory Department of Materials Science and Engineering The University of Seoul Seoul 02504 Republic of Korea;

Powder and Ceramics Division Korea Institute of Materials Science 797 Changwondaero Changwon Gyeongnam 51508 Republic of Korea;

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Processing and properties of glass-bonded silicon carbide membrane supports

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