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Ceramic capacitors lead titanate

Piezoceramics are currently no longer manufactured from BaTi03, but from lead titanate zirconate, Pb(Ti,Zr)03, which aLso crystallizes in a perovskite lattice. Ceramic capacitors to a value of 4.1 10 DM were produced in 1995, ca. 50% of the turnover for functional ceramics, in which the three region USA, Japan and Europe have equal shares. [Pg.464]

Electronic ceramics include barium titanate (BaTiOs), zinc oxide (ZnO), lead zirconate titanate [Pb(ZrJ ii ()03], aluminum nitride (AIN), and HTSCs. They are used in applications as diverse as capacitor dielectrics, varistors. [Pg.5]

In addition to the multilayered ceramic capacitors just described, many of the barium titanate-based compounds that exhibit high dielectric constants are used in single-layer tape-cast capacitor devices. Relaxor materials such as lead magnesium niobate (PMN), which are characterized by high dielectric constants, broad dielectric maxima, and low sintering temperatures, have been manufactured in thin sheets by tape casting. [Pg.215]

Lead zirconate titanate-based materials have many applications, being components of ultrasound transducers and ceramic capacitors, and STM/AFM actuators (tubes). [Pg.251]

Thin film ceramic materials with important magnetic, optical, electronic, and mechanical properties are often highly anisotropic. Thus, the ability to control orientation is critically important in thin film applications. For many of the oxide materials, as well as Ae ionic materials, aqueous solution or sol-gel routes are the most convenient or the only method of preparation. Examples of these include barium titanate (BaTiOs) used in multilayer capacitors, lead-zirconate-titanate (Pb(Zr,Ti)03, "PZT") used as a piezoelectric material, and zinc oxide (ZnO) used in varistors. Thus, the use of substrates to control orientation can eliminate major problems in deposition of thin films. In some cases, e.g., the many magnetic and non-magnetic phases of iron oxide, the ability to control the phase formed is critical to production of the desired properties. While this can be controlled by solution conditions, the proper surface can add an additional and very effective mechanism of control. [Pg.62]

The importance of perovskites became apparent with the discovery of the valuable dielectric and ferroelectric properties of barium titanate, BaTiOj, in the 1940s. This material was rapidly employed in electronics in the form of capacitors and transducers. In the decades that followed, attempts to improve the material properties of BaTiOj lead to intensive research on the structure - property relations of a large number of nominally ionic ceramic perovskite-related phases with overall compositions ABOj, with a result that vast numbers of new phases were synthesised. [Pg.3]

Pure Zirconia. Pure, or unstabilized zirconia, has many uses despite the phase-transformation phenomenon described. Its density, 6.05 g/cm, makes it valuable as a grinding medium. Added to alumina or magnesia it promotes sinterability and enhances strength and other properties, as discussed above under Toughened alumina. It is an important constituent of ceramic colors, and a component of lead-zirconia-titanate-based electronic ceramic devices such as capacitors. But its uses increase dramatically as a result of a process known as stabilization, which is discussed in the following sections. [Pg.45]


See other pages where Ceramic capacitors lead titanate is mentioned: [Pg.72]    [Pg.128]    [Pg.433]    [Pg.114]    [Pg.128]    [Pg.226]    [Pg.455]    [Pg.552]    [Pg.433]    [Pg.162]    [Pg.163]    [Pg.599]    [Pg.309]    [Pg.499]    [Pg.309]    [Pg.309]    [Pg.27]    [Pg.29]   
See also in sourсe #XX -- [ Pg.3 , Pg.38 ]




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