Capacitor Dielectric

ceramics

Oct 5, 2023 - 01:05
 0  12

Figure 1: Ferroelectric properties of barium titanate (BaTiO3). (Left) Above 120° C the structure of the BaTiO3 crystal is cubic, and there is no net polarization of charge; (right) below 120° C the structure changes to tetragonal, shifting the relative positions of the ions and causing a concentration of positive and negative charges toward opposite ends of the crystal.

capacitor dielectric and piezoelectric ceramics, advanced industrial materials that, by virtue of their poor electrical conductivity, are useful in the production of electrical storage or generating devices.

Capacitors are devices that store electric energy in the form of an electric field generated in the space between two separated, oppositely charged electrodes. Their capacity to store energy makes them essential components in many electric circuits, and that capacity can be greatly increased by inserting a solid dielectric material into the space separating the electrodes. Dielectrics are materials that are poor conductors of electricity. The nonconducting properties of ceramics are well known, and some ceramics are made into extremely effective dielectrics. Indeed, more than 90 percent of all capacitors are produced with ceramic materials serving as the dielectric.

Piezoelectrics are materials that generate a voltage when they are subjected to mechanical pressure; conversely, when subjected to an electromagnetic field, they exhibit a change in dimension. Many piezoelectric devices are made of the same ceramic materials as capacitor dielectrics.

This article describes the properties of the most prominent dielectric and piezoelectric ceramics and surveys their practical applications.

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