高居里温度铁酸铋基陶瓷的研究进展

Advances in research on high-Curie temperature BiFeO3-based ceramics

  • 摘要: 铁酸铋-钛酸钡(BiFeO3-BaTiO3, BF-BT) 基陶瓷由于具有高的居里温度TC和大的自发极化强度Ps, 以及较高的压电系数d33, 近年来受到了广泛关注, 且被认为是一种有潜力替代铅基压电陶瓷的无铅压电陶瓷体系. 本文主要综述近几年来国内外有关BF-BT基陶瓷的相结构和压电性能, 以及磁性能等方面的研究进展和动向, 并尝试分析了该陶瓷体系在实用化的道路上存在的迫切需要解决的问题.

     

    Abstract: Piezoelectric materials are functional materials that can realize electromechanical coupling characteristics and are widely used in electronic information, sensors, ultrasonic transducer, nondestructive testing, and communication technology. However, the current dominant piezoelectric ceramics are lead zirconium titanate systems. These systems contain lead, which is a toxic element, and the content of lead oxide or lead tetroxide in lead-based piezoelectric ceramics is over 60%. Because of the volatile and water-soluble characteristics of lead, the production and disposal of traditional lead-based piezoelectric ceramics will result in different levels of lead pollution, which will severely harm the environment and human health. With the improvement of environmental protection and the sustainable development of human society, the harmful effects of lead-based piezoelectric ceramics have aroused increasing attention. Countries around the world have introduced legislation to ban or restrict the use of lead-based ceramics. Thus, lead-free piezoelectric ceramics have received much attention because they are environment-friendly and pollution-free. In the last decade, countries worldwide invested a large amount of funds and labor to search and develop environment-friendly lead-free piezoelectric ceramics, which can be used to replace lead-based piezoelectric ceramics in actuators, transducers, and sensors. In recent years, BiFeO3-BaTiO3 (BF-BT) lead-free solid solutions, which are considered as one of the most promising candidates for high-temperature piezoelectric applications, have received extensive attention from researchers because of their high-Curie temperature (TC) and large spontaneous polarization (Ps), as well as high piezoelectric coefficient (d33). This paper mainly reviewed recent advances in BF-BT ceramics, including the phase structure and piezoelectric property, as well as the magnetic property. In addition, the problems that need to be solved before these ceramics can be practically applied were also analyzed according to the knowledge of the authors.

     

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