冷烧结钛酸铋钠基陶瓷的热处理工艺研究  

Study on Heat Treatment of Cold-Sintering Bismuth Sodium Titanate-Based Ceramics

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作  者:朱超琼 李澳宇 蔡子明 

机构地区:[1]中国矿业大学材料与物理学院,江苏 徐州

出  处:《材料科学》2024年第12期1741-1749,共9页Material Sciences

基  金:感谢国家自然科学基金(52202153)的支持。

摘  要:冷烧结技术(CSP)因其极低的烧结温度与较短的烧结时间,成为近年来备受关注的一种高效节能的陶瓷制备方法。但其仍存在致密度不足、可靠性等问题。本文利用化学包覆的方法将耐击穿的SiO2相引入陶瓷颗粒表面,优化钛酸铋钠基陶瓷的冷烧结性能,并系统研究了不同热处理温度对冷烧结后0.78BNT-0.22NN@SiO2陶瓷的物相结构、显微形貌及铁电性能的影响。最终,成功制备了相对密度接近99%的冷烧结陶瓷。结果表明,热处理温度为1050℃的冷烧结0.78BNT-0.22NN@SiO2陶瓷的室温介电常数为1340,介电损耗为1.4%,具有优异的介温稳定性;并且,其室温最大放电储能密度为3.56 J/cm3;样品在1 Hz至100 Hz频率范围内,储能密度变化率仅为3%,表现出了优异的储能性能。Cold sintering process (CSP) has attracted considerable attention in recent years as an efficient and energy-saving method for ceramic preparation due to its extremely low sintering temperature and short sintering time. However, it still faces issues such as insufficient density and reliability. This paper employs a chemical coating method to introduce a breakdown-resistant SiO2 phase onto the surface of ceramic powders, optimizing the cold sintering performance of Bi0.5Na0.5TiO3(BNT)-based ceramics. The effects of different heat treatment temperatures on the phase structure, microstructure, and ferroelectric properties of cold-sintered 0.78BNT-0.22NN@SiO2 ceramics have been systematically investigated. As a result, ceramics with a relative density close to 99% were successfully prepared via the CSP with an optimized heat treatment temperature. The results indicate that the cold-sintered 0.78BNT-0.22NN@SiO2 ceramic heat-treated at 1050˚C has a room temperature dielectric constant of 1340 and a dielectric loss of 1.4%, exhibiting excellent temperature stability of the dielectric properties. Moreover, its maximum discharge energy storage density at room temperature is 3.56 J/cm3, and the energ

关 键 词:冷烧结 热处理 钛酸铋钠 高效节能 介电性能 

分 类 号:TQ1[化学工程]

 

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