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The article contains sections titled: 1. Introduction 2. Theoretical Background 2.1. Dielectric Effects and Classification of Dielectrics 2.2. Characteristic Dielectric Parameters 3. Linear Dielectrics 3.1. Al 2 O 3 3.2. New Substrate Materials 3.3. Polymer–Ceramic Composites 4. Nonlinear Dielectrics 4.1. Physics of Ferro‐ and Piezoelectricity 4.2. BaTiO 3 (BT) 4.3. PbTiO 3 , PbZrO 3 , PbTiO 3 –PbZrO 3 4.3.1. Crystal Structures, Processing, and Properties 4.3.2. Applications 4.4. PLZT 4.5. Pb(Mg 1/3 Nb 2/3 )O 3 /Pb(Zn 1/3 Nb 2/3 )O 3 (PMN/PZN) 4.6. PbNb 2 O 6 4.7. LiNbO 3 , LiTaO 3 4.8. Lead‐Free Perovskites 4.9. Calcium Gallium Germanate (CGG) Compounds 4.10. Other Materials 5. Semiconducting Ceramics 5.1. SiC 5.1.1. Structure and Properties 5.1.2. Single‐Crystal Growth 5.1.3. Doping and Device Fabrication 5.1.4. Applications 5.2. TiO 2 6. Superconducting Ceramics 7. Sensor Materials 7.1. Oxide‐Based Sensors 7.2. Ferroic, Smart, and Intelligent Sensors
The article contains sections titled: 1. Introduction 2. Theoretical Background 2.1. Dielectric Effects and Classification of Dielectrics 2.2. Characteristic Dielectric Parameters 3. Linear Dielectrics 3.1. Al 2 O 3 3.2. New Substrate Materials 3.3. Polymer–Ceramic Composites 4. Nonlinear Dielectrics 4.1. Physics of Ferro‐ and Piezoelectricity 4.2. BaTiO 3 (BT) 4.3. PbTiO 3 , PbZrO 3 , PbTiO 3 –PbZrO 3 4.3.1. Crystal Structures, Processing, and Properties 4.3.2. Applications 4.4. PLZT 4.5. Pb(Mg 1/3 Nb 2/3 )O 3 /Pb(Zn 1/3 Nb 2/3 )O 3 (PMN/PZN) 4.6. PbNb 2 O 6 4.7. LiNbO 3 , LiTaO 3 4.8. Lead‐Free Perovskites 4.9. Calcium Gallium Germanate (CGG) Compounds 4.10. Other Materials 5. Semiconducting Ceramics 5.1. SiC 5.1.1. Structure and Properties 5.1.2. Single‐Crystal Growth 5.1.3. Doping and Device Fabrication 5.1.4. Applications 5.2. TiO 2 6. Superconducting Ceramics 7. Sensor Materials 7.1. Oxide‐Based Sensors 7.2. Ferroic, Smart, and Intelligent Sensors
The properties of overburden rocks in the extraction of dolomite in the form of red-burning clay from the Kurgan region are investigated to determine its suitability in the production of various types of ceramic materials and products. A full technological study of the clay raw material sample was carried out: the mineral, chemical, particle size composition, as well as plasticity, drying behavior, attitude to sintering, and mechanical strength after burning. It is examined how rheological characteristics affect the control of the technological process. The suitability of clay under consideration, both in majolica ceramics and ceramic bricks production, has been established. The technological parameters for the ceramic bricks production are developed.
Properties of a new type of pyroelectric ceramic structure containing a layer of known porosity laminated between two dense layers, to form a functionally-gradient material (FGM) are reported. Combination of theoretical models for pyroelectric, dielectric and thermal properties gave a model for the pyroelectric voltage figure of merit (F V ) in good agreement with experiment, which had shown a 20% improvement for an introduced central layer porosity of 27%. Preliminary pyroelectric responsivity measurements on FGM infra-red detectors indicated even better improvement. It is postulated that this is due to the porous layer acting as a thermal barrier in the structure.
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