Email RIS file
Bookmark
Report an Issue

Fundamentals of piezoelectric sensorics [electronic resource] : mechanical, dielectric, and thermodynamical properties of piezoelectric materials / by Jan Tichì [and others].

Published
Berlin ; London : Springer, 2010.
Physical Description
1 online resource
Additional Creators
Tichì, Jan
Access Online

Availability

I Want It
I Want It

Finding items...

Contents
Machine generated contents note: 1.Principles of Piezoelectricity -- 1.1.The Direct and the Converse Piezoelectric Effect -- 1.2.Discovery of Piezoelectricity -- 1.3.History of the Theory of Piezoelectricity and of Piezoelectric Materials -- 1.4.Applications of Piezoelectricity and Pyroelectricity -- 1.5.New Piezoelectric Materials -- References -- 2.Introduction to Phenomenological Crystal Structure -- 2.1.Crystal Structure -- 2.1.1.Elements of Symmetry -- 2.1.2.Bravais Lattices -- 2.1.3.Directions and Planes in Crystals -- 2.2.Introduction to Tensors -- 2.2.1.Orthogonal Transformation -- 2.2.2.Transformation of the Coordinates of a Point -- 2.2.3.Scalars and Vectors -- 2.2.4.Second-Rank Tensors -- 2.2.5.Second-Rank Symmetrical Tensors, the Representation Quadric -- 2.2.6.Higher Rank Tensors -- 3.Elastic Properties of Crystals -- 3.1.The Strained Body -- 3.2.Stress -- 3.3.Hooke's Law -- 3.4.Transformation Equations for Elastic Constants -- 3.5.Young's Modulus and Poisson's Ratio -- 3.6.Thermodynamics of Mechanical Deformation -- References -- 4.Basic Thermodynamics of Piezoelectric Crystals -- 4.1.Dielectric Properties -- 4.2.Internal Energy of Elastic Dielectrics -- 4.3.Linear Constitutive Equations -- 4.4.Material Coefficients -- 4.5.Relations Between Different Material Coefficients -- References -- 5.Piezoelectric Properties -- 5.1.Four Possibilities of Piezoelectric Effect -- 5.2.Crystallographic Symmetry Restrictions to Piezoelectricity -- 5.3.Transformation of Piezoelectric Coefficients -- 5.4.Pyroelectric Effect -- 5.5.Hydrostatic Piezoelectric Coefficient -- 5.6.Ferroelectricity -- 5.6.1.Special Properties of Ferroelectrics -- 5.6.2.Thermodynamic Theory -- 5.6.3.Microphysical Model of Ferroelectricity -- 5.6.4.Antiferroelectricity -- 5.6.5.Ferroics -- References -- 6.Nonlinear Material Properties -- 6.1.General Considerations -- 6.2.Choice of State Variables -- 6.3.Definition of Third-Order Material Constants -- 6.4.Experiments on Nonlinear Effects -- 6.4.1.Third Order Permittivity and Electrooptic Effect -- 6.4.2.Piezooptic Effect and Electrostriction -- 6.4.3.Nonlinear Piezoelectricity and Electroelastic Effect -- 6.4.4.Nonlinear Elasticity -- 6.5.Interrelations Between Different Sets of Third-Order Material Constants -- References -- 7.Piezoelectric Materials -- 7.1.Introduction -- 7.2.Desired Properties of Piezoelectric Materials -- 7.3.Quartz -- 7.3.1.Coordinate System Choice -- 7.3.2.Quartz's Material Properties -- 7.3.3.Synthetic Quartz Crystals -- 7.3.4.Twinning -- 7.3.5.Suppression of the Secondary Twinning -- 7.3.6.Temperature Dependence of Piezoelectric Coefficients -- 7.3.7.Nonlinear Electromechanical Properties of α-quartz -- 7.3.8.Piezoelectric Properties of β-quartz -- 7.4.Crystals Homeotypic to Quartz -- 7.4.1.Gallium Orthophosphate (GaPO4) -- 7.4.2.Berlinite (AlPO4) -- 7.4.3.Crystals of CGG Group (Langasite, Langanite, Langataite) -- 7.5.Tourmaline -- 7.6.Lithium niobate (LiNbO3) and Lithium tantalate (LiTaO3) -- 7.7.Lithium Tetraborate (Li2B4O7) -- 7.8.Perovskite Structure -- 7.8.1.Barium titanate (BaTiO3) -- 7.8.2.Potassium niobate (KNbO3) -- 7.8.3.Lead titanate (PbTiO3) -- 7.8.4.PZN-PT and PMN-PT Single-Crystals -- 7.9.Miscellaneous Piezoelectric Crystals -- 7.10.Piezoelectric Textures -- 7.11.Piezoelectric Ceramics -- 7.11.1.PZT Ceramics -- 7.11.2.Non-PZT Ceramic Compositions -- 7.12.Thin Films -- 7.13.Ferroelectric Polymers -- 7.13.1.PVDF Polymer and Its Blends with TrFE -- 7.14.Piezoelectric Composites -- 7.14.1.0-3 Composites -- 7.14.2.1-3 Composites -- 7.14.3.2-2 Composites -- 7.14.4.Miscellaneous Composite Structures -- 7.14.5.Materials with Functionally Graded Properties -- References -- Appendix -- Triclinic 1 -- Triclinic 1 -- Monoclinic 2 (2Πx2) -- Monoclinic 2/m (mTx2) -- Monoclinic m (mTx2) -- Orthorhombic 222 -- Orthorhombic mm2 -- Orthorhombic mmm -- Trigonal 3 -- Trigonal 3 -- Trigonal 32 (2Πx1) -- Trigonal 3m(mTx1) -- Trigonal 3m -- Tetragonal 4 -- Tetragonal 4 -- Tetragonal 4/m -- Tetragonal 422 -- Tetragonal 4mm -- Tetragonal 4/mmm -- Tetragonal 42m -- Hexagonal 6 -- Hexagonal 6 -- Hexagonal 6/m -- Hexagonal 622 -- Hexagonal 6mm -- Hexagonal 6m2 -- Hexagonal 6/mmm -- Cubic 23 -- Cubic m3 -- Cubic 432 -- Cubic 43m -- Cubic m3m -- References.
Subject(s)
ISBN
9783540684275
3540684271
Note
AVAILABLE ONLINE TO AUTHORIZED PSU USERS.
View MARC record | catkey: 6762596