Problems with PZT piezoelectric ceramics powder(1)

PZT piezoelectric ceramics have been the focus of attention and research since the 1960s due to its high curie temperature, strong piezoelectricity, easy doping modification and good stability. In the field of piezoelectric ceramics. In terms of the preparation process of PZT piezoelectric ceramics, PZT powder synthesis and densification sintering have the greatest influence on the quality of PZT products. PZT powder has the advantages of fine particle size, large specific surface area and high reactivity. It can reduce sintering temperature, lead volatilization,which ensure accurate stoichiometry, and improve the performance of PZT products. Therefore, the preparation of ultrafine PZT powderhas become PZT piezoelectric ceramics.which is the focus of research.

In recent years, many new methods have been developed for the research on the preparation of ultra fine PZT piezo ceramic materials. The solid phase method includes microwave radiation method, mechanical chemical method, reaction sintering method, and the like in addition to the conventional solid phase method. The liquid phase method has the advantages of low synthesis temperature, simple equipment, easy operation, low cost, etc., which has been used for the preparation of PZT powder, such as sol-gel method, hydrothermal method, precipitation method and the like. However, there are still many shortcomings in the preparation and performance of PZT piezoelectric ceramics, including powder agglomeration, stoichiometry and easy aging of product properties.Powder agglomeration: which generally includes soft agglomeration and hard agglomeration. Soft agglomeration is due to the increasing and interaction of van der Waals force, electrostatic attraction and capillary force between particles as the particle size decreases; hard agglomeration is due to hydrogen bonding between chemically bonded OH groups [2OH H2O(g) + O2-] forms a bridge oxygen bond, and a bridge oxygen bond between the particles forms an interaction. Agglomeration problem The most important factor in the performance of ultra-fine Pzt Ceramic Powder is also greatly affecting the quality of PZT products. This is because the PZT material is a functional material. The basic material requirements for the synthetic powder are high purity, ultrafine, uniform particle distribution, good dispersibility, accurate stoichiometry, and uniform doping. In addition, the occurrence of agglomeration. PZT powder synthesis will lead to a decrease in bulk density and uneven morphology, and will introduce a large number of pores resulting in uneven microstructure, which seriously affects the piezoelectric and thermoelectric properties of low PZT products. Therefore, reducing or avoiding agglomeration in the synthesis of ultrafine PZT powder is a prerequisite for the preparation of high performance PZT piezoelectric ceramics.