制备了在燃料电池中作为密封剂使用的操作温度可达700~900°C 的 SiO2?Al2O3?BaO?MgO 和SiO2?Al2O3?ZrO2?CaO?Na2O 系玻璃陶瓷。采用同步热分析和高温膨胀测量技术,对所研究的玻璃陶瓷的热性能和其与燃料电池用材料(YSZ 电解质,合金连接器 Crofer22APU,15Х25Т)的匹配性能进行研究。采用原子发射光谱对玻璃陶瓷的元素成分进行分析。结果表明,45%SiO2?15%Al2O3?25%BaO?15%MgO 陶瓷的线膨胀系数为10.0×10?6°C?1,60%SiO2?10%Al2O3?10%ZrO2?5%CaO?15%Na2O 的为9.5×10?6°C ?1。采用扫描电镜对 YSZ/玻璃陶瓷/Crofer22APU 的界面结构进行分析。SiO2?Al2O3?BaO?MgO 玻璃中的硅酸盐相发生了晶化,采用拉曼光谱和X 射线衍射对晶化产物进行了分析。与非晶玻璃相比,所研究的玻璃陶瓷作为电化学或氧传感器中的密封剂使用时具有更佳的性能指标。而 SiO2?Al2O3?ZrO2?CaO?Na2O 低温非晶陶瓷可以作为燃料电池中的密封剂使用。
Glasses of the SiO2?Al2O3?BaO?MgO and SiO2?Al2O3?ZrO2?CaO?Na2O systems were synthesized in the perspective to apply them as sealants in SOFC at operating temperatures of 700?900 °C. Thermal properties of the chosen glass compositions and their compatibility with the SOFC materials (YSZ-electrolyte and alloy-interconnector Crofer22APU, 15Х25Т) were investigated by means of synchronic thermal analysis and high-temperature dilatometry. The elemental analysis was performed by atomic emission spectroscopy. The average values of the temperature coefficients of the linear extension are 10.0×10?6 °С?1 for glass 45%SiO2?15%Al2O3?25%BaO?15%MgO and 9.5×10?6 °С?1 for glass 60%SiO2?10%Al2O3?10%ZrO2?5%CaO?15%Na2O. The gluing microstructure in YSZ/glass/Crofer22APU was studied by scanning electron microscopy. The crystallization process of silicate phases was revealed to occur in the SiO2?Al2O3?BaO?MgO glass. The analysis of the crystallization products was performed by Raman spectroscopy and X-ray diffraction. Glassy ceramics was proved to possess better parameters in comparison with amorphous glass to be used as a sealant in electrochemical sensors and oxygen sensors. The SiO2?Al2O3?ZrO2?CaO?Na2O low-temperature amorphous glass can be applied in SOFC.
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