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利用Si3N4—SiC材料在冰晶石静态融盐电解质中的腐蚀实验研究材料的腐蚀性能,对腐蚀增重率进行记录分析,Si3N4的含量是影响材料腐蚀性能的重要因素,根据实验测定得出Si3N4的含量越高,Si3N4-SiC材料腐蚀程度越严重。 相似文献
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通过对不同Si3N4含量、不同温度下Si3N4-SiC材料的氧化实验,分析氧化后的氧化增重率,得出Si3N4含量越高,材料氧化越严重;氧化温度越高,材料氧化越严重;且氧化增重率与氧化时间呈直线-抛物线规律。 相似文献
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Siqi Ma Shuai Fu Qikun Wang Hualong Yang Wanlin Li Peigang He Meirong Wang Delong Cai Xiaoming Duan Dechang Jia Hua-Tay Lin Yu Zhou 《International Journal of Applied Ceramic Technology》2023,20(4):2239-2248
In this paper, a honeycomb Si3N4 ceramic was fabricated by 3D printing with a well-preserved structure. The effects of Si3N4 content on the rheological properties of Si3N4/sol–silica ink and the printing resolution of products were investigated. The microstructure, phase composition, liner shrinkage rate, and fracture behavior of printed samples before and after sintering were systematically characterized in detail. The results showed that the modified inks had the optimized rheological properties, and the stress–shear rate curves corresponding to each slurry could be well described by Bingham and Herschel–Bulkley fluid models. The corresponding slump rates of the printed samples with different Si3N4 to sol–silica mass ratios were all lower than 4%, and the linear shrinkage rate of all of the samples after sintering was below 20%. The fracture behavior under compressive loading of the honeycomb Si3N4 ceramics tended to be non-catastrophic fractures both before and after sintering. The compressive strengths of all of the printed samples decreased with the increase of the Si3N4 content, and the highest compressive strength of the honeycomb ceramics could reach 131.2 MPa after sintering at 1600°C, which was about 366.9% higher than that of the samples in green state prior to the sintering. 相似文献
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本文在介绍晶须生长机制的基础上分析了氮化硅晶须的结构特点及物化性能,并简单介绍了氮化硅的制备方法,阐述了其作为复合材料的应用现状,并对其发展方向作了展望。 相似文献