Analysis of piezoelectric devices /:
This is the most systematic, comprehensive and up-to-date book on the theoretical analysis of piezoelectric devices. It is a natural continuation of the author's two previous books: "An Introduction to the Theory of Piezoelectricity" (Springer, 2005) and "The Mechanics of Piezoel...
Gespeichert in:
| 1. Verfasser: | |
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| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Hackensack, NJ :
World Scientific,
©2006.
|
| Schlagworte: | |
| Online-Zugang: | Volltext |
| Zusammenfassung: | This is the most systematic, comprehensive and up-to-date book on the theoretical analysis of piezoelectric devices. It is a natural continuation of the author's two previous books: "An Introduction to the Theory of Piezoelectricity" (Springer, 2005) and "The Mechanics of Piezoelectric Structures" (World Scientific, 2006). Based on the linear, nonlinear, three-dimensional and lower-dimensional structural theories of electromechanical materials, theoretical results are presented for devices such as piezoelectric resonators, acoustic wave sensors, and piezoelectric transducers. The book reflects the contribution to the field from Mindlin's school of applied mechanics researchers since the 1950s |
| Beschreibung: | 1 online resource (xv, 520 pages) : illustrations |
| Bibliographie: | Includes bibliographical references (pages 491-500) and index. |
| ISBN: | 9812568611 9789812568618 9789812773180 9812773185 1281373079 9781281373076 9786611373078 6611373071 |
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| 100 | 1 | |a Yang, Jiashi, |d 1956- |1 https://id.oclc.org/worldcat/entity/E39PCjGghw7jQD4R7KPqTWb68C |0 http://id.loc.gov/authorities/names/nr93049182 | |
| 245 | 1 | 0 | |a Analysis of piezoelectric devices / |c Jiashi Yang. |
| 260 | |a Hackensack, NJ : |b World Scientific, |c ©2006. | ||
| 300 | |a 1 online resource (xv, 520 pages) : |b illustrations | ||
| 336 | |a text |b txt |2 rdacontent | ||
| 337 | |a computer |b c |2 rdamedia | ||
| 338 | |a online resource |b cr |2 rdacarrier | ||
| 347 | |a data file | ||
| 504 | |a Includes bibliographical references (pages 491-500) and index. | ||
| 505 | 0 | |a Ch. 1. Three-dimensional theories. 1.1. Nonlinear electroelasticity for strong fields. 1.2. Linear piezoelectricity for infinitesimal fields. 1.3. Linear theory for small fields superposed on a finite bias. 1.4. Cubic theory for weak nonlinearity -- ch. 2. Thickness-shear modes of plate resonators. 2.1. Static thickness-shear deformation. 2.2. Nonlinear thickness-shear deformation. 2.3. Effects of initial fields on thickness-shear deformation. 2.4. Linear thickness-shear vibration. 2.5. Effects of electrode inertia. 2.6. Inertial effects of imperfectly bounded electrodes. 2.7. Effects of electrode inertia and shear stiffness. 2.8. Nonlinear thickness-shear vibration. 2.9. Effects of initial fields on thickness-shear vibration -- ch. 3. Slowly varying thickness-shear modes. 3.1. Exact waves in a plate. 3.2. An approximate equation for thickness-shear waves. 3.3. Thickness-shear vibration of finite plates. 3.4. Energy trapping in mesa resonators. 3.5. Contoured resonators. 3.6. Energy trapping due to material inhomogeneity. 3.7. Energy trapping by electrode mass. 3.8. Effects of non-uniform electrodes. 3.9. Effectsof electromechanical coupling on energy trapping. 3.10. Coupling to flexure. 3.11. Coupling to face-shear and flexure. 3.12. Effects of middle surface curvature -- ch. 4. Mass sensors. 4.1. Inertial effect of a mass layer by perturbation. 4.2. Thickness-shear modes of a plate. 4.3. Anti-plane modes of a wedge. 4.4. Torsional modes of a conical shell. 4.5. Effects of inertia and stiffness of a mass layer by perturbation. 4.6. Effects of inertia and stiffness of a mass layer by variation. 4.7. Radial modes of a ring. 4.8. Effects of shear deformability ofa mass layer. 4.9. Thickness-shear modes ofa plate with thick mass layers. 4.10. An ill-posed problem in elasticity for mass sensors. 4.11. Thickness-shear modes of a circular cylinder. 4.12. Mass sensitivity of surface waves. 4.13. Thickness-twist waves in a ceramic plate. 4.14. Bechmann's number for thickness-twist waves. 4.15. Thickness-twist waves in a quartz plate -- ch. 5. Fluid sensors. 5.1. An ill-posed problem in elasticity for fluid sensors. 5.2. Perturbation analysis. 5.3. Thickness-shear modes of a plate. 5.4. Torsional modes of a cylindrical shell. 5.5. Thickness-shear modes of a circular cylinder. 5.6. Surface wave fluid sensors. 5.7. Thickness-twist waves in a ceramic plate -- ch. 6. Gyroscopes -- frequency effect. 6.1. High frequency vibrations of a small rotating piezoelectric body. 6.2. Propagation of plane waves. 6.3. Thickness vibrations of plates. 6.4. Propagating waves in a rotating piezoelectric plate. 6.5. Surface waves over a rotating piezoelectric half-space -- ch. 7. Gyroscopes -- charge effect. 7.1. A rectangular beam. 7.2. A circular tube. 7.3. A beam bimorph. 7.4. An inhomogeneous shell. 7.5. A ceramic ring. 7.6. A concentrated mass and ceramic rods. 7.7. A ceramic plate by two-dimensional equations. 7.8. A ceramic plate by zero-dimensional equations -- ch. 8. Acceleration sensitivity. 8.1. Deformation of a quartz plate under normal acceleration. 8.2. First-order acceleration sensitivity. 8.3. An estimate of second-order acceleration sensitivity and its reduction. 8.4. Second-order perturbation analysis. 8.5. Second-order normal acceleration sensitivity. 8.6. Effects of middle surface curvature. 8.7. Vibration sensitivity -- ch. 9. Pressure sensors. 9.1. A rectangular plate in a circular cylindrical shell. 9.2. A circular plate in a circular cylindrical shell. 9.3. A rectangular plate in a shallow shell. 9.4. A bimorph. 9.5. Surface wave pressure sensors based on extension. 9.6. Surface wave pressure sensors based on flexure -- ch. 10. Temperature sensors. 10.1. Thermoelectroelasticity. 10.2. Linear theory. 10.3. Small fields superposed on a thermal bias. 10.4. Thickness-shear modes of a free plate. 10.5. Thickness-shear modes of a constrained plate -- ch. 11. Piezoelectric generators. 11.1. Thickness-stretch of a ceramic plate. 11.2. A circular shell. 11.3. A beam bimorph. 11.4. A spiral bimorph. 11.5. Nonlinear behavior near resonance -- ch. 12. Piezoelectric transformers. 12.1. A thickness-stretch mode plate transformer. 12.2. Rosen transformer. 12.3. A thickness-shear mode transformer -- free vibration. 12.4. A thickness-shear mode transformer -- forced vibration -- ch. 13. Power transmissiion through an elastic wall. 13.1. Formulation of the problem. 13.2. Theoretical analysis. 13.3. Numerical results -- ch. 14. Acoustic wave amplifiers. 14.1. Equations for piezoelectric semiconductors. 14.2. Equations for a thin film. 14.3. Surface waves. 14.4. Interface waves. 14.5. Waves in a plate. 14.6. Gap waves. | |
| 588 | 0 | |a Print version record. | |
| 520 | |a This is the most systematic, comprehensive and up-to-date book on the theoretical analysis of piezoelectric devices. It is a natural continuation of the author's two previous books: "An Introduction to the Theory of Piezoelectricity" (Springer, 2005) and "The Mechanics of Piezoelectric Structures" (World Scientific, 2006). Based on the linear, nonlinear, three-dimensional and lower-dimensional structural theories of electromechanical materials, theoretical results are presented for devices such as piezoelectric resonators, acoustic wave sensors, and piezoelectric transducers. The book reflects the contribution to the field from Mindlin's school of applied mechanics researchers since the 1950s | ||
| 546 | |a English. | ||
| 650 | 0 | |a Piezoelectric devices |x Mathematical models. | |
| 650 | 6 | |a Dispositifs piézoélectriques |x Modèles mathématiques. | |
| 650 | 7 | |a SCIENCE |x Physics |x Electromagnetism. |2 bisacsh | |
| 650 | 7 | |a SCIENCE |x Physics |x Electricity. |2 bisacsh | |
| 650 | 7 | |a Piezoelectric devices |x Mathematical models |2 fast | |
| 776 | 0 | 8 | |i Print version: |a Yang, Jiashi, 1956- |t Analysis of piezoelectric devices. |d Hackensack, NJ : World Scientific, ©2006 |w (DLC) 2007270022 |
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Datensatz im Suchindex
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| author | Yang, Jiashi, 1956- |
| author_GND | http://id.loc.gov/authorities/names/nr93049182 |
| author_facet | Yang, Jiashi, 1956- |
| author_role | |
| author_sort | Yang, Jiashi, 1956- |
| author_variant | j y jy |
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| bvnumber | localFWS |
| callnumber-first | T - Technology |
| callnumber-label | TK7872 |
| callnumber-raw | TK7872.P54 Y358 2006eb |
| callnumber-search | TK7872.P54 Y358 2006eb |
| callnumber-sort | TK 47872 P54 Y358 42006EB |
| callnumber-subject | TK - Electrical and Nuclear Engineering |
| collection | ZDB-4-EBA |
| contents | Ch. 1. Three-dimensional theories. 1.1. Nonlinear electroelasticity for strong fields. 1.2. Linear piezoelectricity for infinitesimal fields. 1.3. Linear theory for small fields superposed on a finite bias. 1.4. Cubic theory for weak nonlinearity -- ch. 2. Thickness-shear modes of plate resonators. 2.1. Static thickness-shear deformation. 2.2. Nonlinear thickness-shear deformation. 2.3. Effects of initial fields on thickness-shear deformation. 2.4. Linear thickness-shear vibration. 2.5. Effects of electrode inertia. 2.6. Inertial effects of imperfectly bounded electrodes. 2.7. Effects of electrode inertia and shear stiffness. 2.8. Nonlinear thickness-shear vibration. 2.9. Effects of initial fields on thickness-shear vibration -- ch. 3. Slowly varying thickness-shear modes. 3.1. Exact waves in a plate. 3.2. An approximate equation for thickness-shear waves. 3.3. Thickness-shear vibration of finite plates. 3.4. Energy trapping in mesa resonators. 3.5. Contoured resonators. 3.6. Energy trapping due to material inhomogeneity. 3.7. Energy trapping by electrode mass. 3.8. Effects of non-uniform electrodes. 3.9. Effectsof electromechanical coupling on energy trapping. 3.10. Coupling to flexure. 3.11. Coupling to face-shear and flexure. 3.12. Effects of middle surface curvature -- ch. 4. Mass sensors. 4.1. Inertial effect of a mass layer by perturbation. 4.2. Thickness-shear modes of a plate. 4.3. Anti-plane modes of a wedge. 4.4. Torsional modes of a conical shell. 4.5. Effects of inertia and stiffness of a mass layer by perturbation. 4.6. Effects of inertia and stiffness of a mass layer by variation. 4.7. Radial modes of a ring. 4.8. Effects of shear deformability ofa mass layer. 4.9. Thickness-shear modes ofa plate with thick mass layers. 4.10. An ill-posed problem in elasticity for mass sensors. 4.11. Thickness-shear modes of a circular cylinder. 4.12. Mass sensitivity of surface waves. 4.13. Thickness-twist waves in a ceramic plate. 4.14. Bechmann's number for thickness-twist waves. 4.15. Thickness-twist waves in a quartz plate -- ch. 5. Fluid sensors. 5.1. An ill-posed problem in elasticity for fluid sensors. 5.2. Perturbation analysis. 5.3. Thickness-shear modes of a plate. 5.4. Torsional modes of a cylindrical shell. 5.5. Thickness-shear modes of a circular cylinder. 5.6. Surface wave fluid sensors. 5.7. Thickness-twist waves in a ceramic plate -- ch. 6. Gyroscopes -- frequency effect. 6.1. High frequency vibrations of a small rotating piezoelectric body. 6.2. Propagation of plane waves. 6.3. Thickness vibrations of plates. 6.4. Propagating waves in a rotating piezoelectric plate. 6.5. Surface waves over a rotating piezoelectric half-space -- ch. 7. Gyroscopes -- charge effect. 7.1. A rectangular beam. 7.2. A circular tube. 7.3. A beam bimorph. 7.4. An inhomogeneous shell. 7.5. A ceramic ring. 7.6. A concentrated mass and ceramic rods. 7.7. A ceramic plate by two-dimensional equations. 7.8. A ceramic plate by zero-dimensional equations -- ch. 8. Acceleration sensitivity. 8.1. Deformation of a quartz plate under normal acceleration. 8.2. First-order acceleration sensitivity. 8.3. An estimate of second-order acceleration sensitivity and its reduction. 8.4. Second-order perturbation analysis. 8.5. Second-order normal acceleration sensitivity. 8.6. Effects of middle surface curvature. 8.7. Vibration sensitivity -- ch. 9. Pressure sensors. 9.1. A rectangular plate in a circular cylindrical shell. 9.2. A circular plate in a circular cylindrical shell. 9.3. A rectangular plate in a shallow shell. 9.4. A bimorph. 9.5. Surface wave pressure sensors based on extension. 9.6. Surface wave pressure sensors based on flexure -- ch. 10. Temperature sensors. 10.1. Thermoelectroelasticity. 10.2. Linear theory. 10.3. Small fields superposed on a thermal bias. 10.4. Thickness-shear modes of a free plate. 10.5. Thickness-shear modes of a constrained plate -- ch. 11. Piezoelectric generators. 11.1. Thickness-stretch of a ceramic plate. 11.2. A circular shell. 11.3. A beam bimorph. 11.4. A spiral bimorph. 11.5. Nonlinear behavior near resonance -- ch. 12. Piezoelectric transformers. 12.1. A thickness-stretch mode plate transformer. 12.2. Rosen transformer. 12.3. A thickness-shear mode transformer -- free vibration. 12.4. A thickness-shear mode transformer -- forced vibration -- ch. 13. Power transmissiion through an elastic wall. 13.1. Formulation of the problem. 13.2. Theoretical analysis. 13.3. Numerical results -- ch. 14. Acoustic wave amplifiers. 14.1. Equations for piezoelectric semiconductors. 14.2. Equations for a thin film. 14.3. Surface waves. 14.4. Interface waves. 14.5. Waves in a plate. 14.6. Gap waves. |
| ctrlnum | (OCoLC)226376829 |
| dewey-full | 537/.2446 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 537 - Electricity and electronics |
| dewey-raw | 537/.2446 |
| dewey-search | 537/.2446 |
| dewey-sort | 3537 42446 |
| dewey-tens | 530 - Physics |
| discipline | Physik |
| format | Electronic eBook |
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Three-dimensional theories. 1.1. Nonlinear electroelasticity for strong fields. 1.2. Linear piezoelectricity for infinitesimal fields. 1.3. Linear theory for small fields superposed on a finite bias. 1.4. Cubic theory for weak nonlinearity -- ch. 2. Thickness-shear modes of plate resonators. 2.1. Static thickness-shear deformation. 2.2. Nonlinear thickness-shear deformation. 2.3. Effects of initial fields on thickness-shear deformation. 2.4. Linear thickness-shear vibration. 2.5. Effects of electrode inertia. 2.6. Inertial effects of imperfectly bounded electrodes. 2.7. Effects of electrode inertia and shear stiffness. 2.8. Nonlinear thickness-shear vibration. 2.9. Effects of initial fields on thickness-shear vibration -- ch. 3. Slowly varying thickness-shear modes. 3.1. Exact waves in a plate. 3.2. An approximate equation for thickness-shear waves. 3.3. Thickness-shear vibration of finite plates. 3.4. Energy trapping in mesa resonators. 3.5. Contoured resonators. 3.6. Energy trapping due to material inhomogeneity. 3.7. Energy trapping by electrode mass. 3.8. Effects of non-uniform electrodes. 3.9. Effectsof electromechanical coupling on energy trapping. 3.10. Coupling to flexure. 3.11. Coupling to face-shear and flexure. 3.12. Effects of middle surface curvature -- ch. 4. Mass sensors. 4.1. Inertial effect of a mass layer by perturbation. 4.2. Thickness-shear modes of a plate. 4.3. Anti-plane modes of a wedge. 4.4. Torsional modes of a conical shell. 4.5. Effects of inertia and stiffness of a mass layer by perturbation. 4.6. Effects of inertia and stiffness of a mass layer by variation. 4.7. Radial modes of a ring. 4.8. Effects of shear deformability ofa mass layer. 4.9. Thickness-shear modes ofa plate with thick mass layers. 4.10. An ill-posed problem in elasticity for mass sensors. 4.11. Thickness-shear modes of a circular cylinder. 4.12. Mass sensitivity of surface waves. 4.13. Thickness-twist waves in a ceramic plate. 4.14. Bechmann's number for thickness-twist waves. 4.15. Thickness-twist waves in a quartz plate -- ch. 5. Fluid sensors. 5.1. An ill-posed problem in elasticity for fluid sensors. 5.2. Perturbation analysis. 5.3. Thickness-shear modes of a plate. 5.4. Torsional modes of a cylindrical shell. 5.5. Thickness-shear modes of a circular cylinder. 5.6. Surface wave fluid sensors. 5.7. Thickness-twist waves in a ceramic plate -- ch. 6. Gyroscopes -- frequency effect. 6.1. High frequency vibrations of a small rotating piezoelectric body. 6.2. Propagation of plane waves. 6.3. Thickness vibrations of plates. 6.4. Propagating waves in a rotating piezoelectric plate. 6.5. Surface waves over a rotating piezoelectric half-space -- ch. 7. Gyroscopes -- charge effect. 7.1. A rectangular beam. 7.2. A circular tube. 7.3. A beam bimorph. 7.4. An inhomogeneous shell. 7.5. A ceramic ring. 7.6. A concentrated mass and ceramic rods. 7.7. A ceramic plate by two-dimensional equations. 7.8. A ceramic plate by zero-dimensional equations -- ch. 8. Acceleration sensitivity. 8.1. Deformation of a quartz plate under normal acceleration. 8.2. First-order acceleration sensitivity. 8.3. An estimate of second-order acceleration sensitivity and its reduction. 8.4. Second-order perturbation analysis. 8.5. Second-order normal acceleration sensitivity. 8.6. Effects of middle surface curvature. 8.7. Vibration sensitivity -- ch. 9. Pressure sensors. 9.1. A rectangular plate in a circular cylindrical shell. 9.2. A circular plate in a circular cylindrical shell. 9.3. A rectangular plate in a shallow shell. 9.4. A bimorph. 9.5. Surface wave pressure sensors based on extension. 9.6. Surface wave pressure sensors based on flexure -- ch. 10. Temperature sensors. 10.1. Thermoelectroelasticity. 10.2. Linear theory. 10.3. Small fields superposed on a thermal bias. 10.4. Thickness-shear modes of a free plate. 10.5. Thickness-shear modes of a constrained plate -- ch. 11. Piezoelectric generators. 11.1. Thickness-stretch of a ceramic plate. 11.2. A circular shell. 11.3. A beam bimorph. 11.4. A spiral bimorph. 11.5. Nonlinear behavior near resonance -- ch. 12. Piezoelectric transformers. 12.1. A thickness-stretch mode plate transformer. 12.2. Rosen transformer. 12.3. A thickness-shear mode transformer -- free vibration. 12.4. A thickness-shear mode transformer -- forced vibration -- ch. 13. Power transmissiion through an elastic wall. 13.1. Formulation of the problem. 13.2. Theoretical analysis. 13.3. Numerical results -- ch. 14. Acoustic wave amplifiers. 14.1. Equations for piezoelectric semiconductors. 14.2. Equations for a thin film. 14.3. Surface waves. 14.4. Interface waves. 14.5. Waves in a plate. 14.6. Gap waves.</subfield></datafield><datafield tag="588" ind1="0" ind2=" "><subfield code="a">Print version record.</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">This is the most systematic, comprehensive and up-to-date book on the theoretical analysis of piezoelectric devices. It is a natural continuation of the author's two previous books: "An Introduction to the Theory of Piezoelectricity" (Springer, 2005) and "The Mechanics of Piezoelectric Structures" (World Scientific, 2006). Based on the linear, nonlinear, three-dimensional and lower-dimensional structural theories of electromechanical materials, theoretical results are presented for devices such as piezoelectric resonators, acoustic wave sensors, and piezoelectric transducers. The book reflects the contribution to the field from Mindlin's school of applied mechanics researchers since the 1950s</subfield></datafield><datafield tag="546" ind1=" " ind2=" "><subfield code="a">English.</subfield></datafield><datafield tag="650" ind1=" " ind2="0"><subfield code="a">Piezoelectric devices</subfield><subfield code="x">Mathematical models.</subfield></datafield><datafield tag="650" ind1=" " ind2="6"><subfield code="a">Dispositifs piézoélectriques</subfield><subfield code="x">Modèles mathématiques.</subfield></datafield><datafield tag="650" ind1=" " ind2="7"><subfield code="a">SCIENCE</subfield><subfield code="x">Physics</subfield><subfield code="x">Electromagnetism.</subfield><subfield code="2">bisacsh</subfield></datafield><datafield tag="650" ind1=" " ind2="7"><subfield code="a">SCIENCE</subfield><subfield code="x">Physics</subfield><subfield code="x">Electricity.</subfield><subfield code="2">bisacsh</subfield></datafield><datafield tag="650" ind1=" " ind2="7"><subfield code="a">Piezoelectric devices</subfield><subfield code="x">Mathematical models</subfield><subfield code="2">fast</subfield></datafield><datafield tag="776" ind1="0" ind2="8"><subfield code="i">Print version:</subfield><subfield code="a">Yang, Jiashi, 1956-</subfield><subfield code="t">Analysis of piezoelectric devices.</subfield><subfield code="d">Hackensack, NJ : World Scientific, ©2006</subfield><subfield code="w">(DLC) 2007270022</subfield></datafield><datafield tag="856" ind1="4" ind2="0"><subfield code="l">FWS01</subfield><subfield code="p">ZDB-4-EBA</subfield><subfield code="q">FWS_PDA_EBA</subfield><subfield code="u">https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=210749</subfield><subfield code="3">Volltext</subfield></datafield><datafield tag="936" ind1=" " ind2=" "><subfield code="a">BATCHLOAD</subfield></datafield><datafield tag="938" ind1=" " ind2=" "><subfield code="a">EBSCOhost</subfield><subfield code="b">EBSC</subfield><subfield code="n">210749</subfield></datafield><datafield tag="938" ind1=" " ind2=" "><subfield code="a">YBP Library Services</subfield><subfield code="b">YANK</subfield><subfield code="n">2743211</subfield></datafield><datafield tag="938" ind1=" " ind2=" "><subfield code="b">OCKB</subfield><subfield code="z">perlego.catalogue,60ceffe7-e375-46b4-af3b-9c2989627f8d-emi</subfield></datafield><datafield tag="994" ind1=" " ind2=" "><subfield code="a">92</subfield><subfield code="b">GEBAY</subfield></datafield><datafield tag="912" ind1=" " ind2=" "><subfield code="a">ZDB-4-EBA</subfield></datafield><datafield tag="049" ind1=" " ind2=" "><subfield code="a">DE-863</subfield></datafield></record></collection> |
| id | ZDB-4-EBA-ocn226376829 |
| illustrated | Illustrated |
| indexdate | 2024-11-27T13:16:19Z |
| institution | BVB |
| isbn | 9812568611 9789812568618 9789812773180 9812773185 1281373079 9781281373076 9786611373078 6611373071 |
| language | English |
| oclc_num | 226376829 |
| open_access_boolean | |
| owner | MAIN DE-863 DE-BY-FWS |
| owner_facet | MAIN DE-863 DE-BY-FWS |
| physical | 1 online resource (xv, 520 pages) : illustrations |
| psigel | ZDB-4-EBA |
| publishDate | 2006 |
| publishDateSearch | 2006 |
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| publisher | World Scientific, |
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| spelling | Yang, Jiashi, 1956- https://id.oclc.org/worldcat/entity/E39PCjGghw7jQD4R7KPqTWb68C http://id.loc.gov/authorities/names/nr93049182 Analysis of piezoelectric devices / Jiashi Yang. Hackensack, NJ : World Scientific, ©2006. 1 online resource (xv, 520 pages) : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier data file Includes bibliographical references (pages 491-500) and index. Ch. 1. Three-dimensional theories. 1.1. Nonlinear electroelasticity for strong fields. 1.2. Linear piezoelectricity for infinitesimal fields. 1.3. Linear theory for small fields superposed on a finite bias. 1.4. Cubic theory for weak nonlinearity -- ch. 2. Thickness-shear modes of plate resonators. 2.1. Static thickness-shear deformation. 2.2. Nonlinear thickness-shear deformation. 2.3. Effects of initial fields on thickness-shear deformation. 2.4. Linear thickness-shear vibration. 2.5. Effects of electrode inertia. 2.6. Inertial effects of imperfectly bounded electrodes. 2.7. Effects of electrode inertia and shear stiffness. 2.8. Nonlinear thickness-shear vibration. 2.9. Effects of initial fields on thickness-shear vibration -- ch. 3. Slowly varying thickness-shear modes. 3.1. Exact waves in a plate. 3.2. An approximate equation for thickness-shear waves. 3.3. Thickness-shear vibration of finite plates. 3.4. Energy trapping in mesa resonators. 3.5. Contoured resonators. 3.6. Energy trapping due to material inhomogeneity. 3.7. Energy trapping by electrode mass. 3.8. Effects of non-uniform electrodes. 3.9. Effectsof electromechanical coupling on energy trapping. 3.10. Coupling to flexure. 3.11. Coupling to face-shear and flexure. 3.12. Effects of middle surface curvature -- ch. 4. Mass sensors. 4.1. Inertial effect of a mass layer by perturbation. 4.2. Thickness-shear modes of a plate. 4.3. Anti-plane modes of a wedge. 4.4. Torsional modes of a conical shell. 4.5. Effects of inertia and stiffness of a mass layer by perturbation. 4.6. Effects of inertia and stiffness of a mass layer by variation. 4.7. Radial modes of a ring. 4.8. Effects of shear deformability ofa mass layer. 4.9. Thickness-shear modes ofa plate with thick mass layers. 4.10. An ill-posed problem in elasticity for mass sensors. 4.11. Thickness-shear modes of a circular cylinder. 4.12. Mass sensitivity of surface waves. 4.13. Thickness-twist waves in a ceramic plate. 4.14. Bechmann's number for thickness-twist waves. 4.15. Thickness-twist waves in a quartz plate -- ch. 5. Fluid sensors. 5.1. An ill-posed problem in elasticity for fluid sensors. 5.2. Perturbation analysis. 5.3. Thickness-shear modes of a plate. 5.4. Torsional modes of a cylindrical shell. 5.5. Thickness-shear modes of a circular cylinder. 5.6. Surface wave fluid sensors. 5.7. Thickness-twist waves in a ceramic plate -- ch. 6. Gyroscopes -- frequency effect. 6.1. High frequency vibrations of a small rotating piezoelectric body. 6.2. Propagation of plane waves. 6.3. Thickness vibrations of plates. 6.4. Propagating waves in a rotating piezoelectric plate. 6.5. Surface waves over a rotating piezoelectric half-space -- ch. 7. Gyroscopes -- charge effect. 7.1. A rectangular beam. 7.2. A circular tube. 7.3. A beam bimorph. 7.4. An inhomogeneous shell. 7.5. A ceramic ring. 7.6. A concentrated mass and ceramic rods. 7.7. A ceramic plate by two-dimensional equations. 7.8. A ceramic plate by zero-dimensional equations -- ch. 8. Acceleration sensitivity. 8.1. Deformation of a quartz plate under normal acceleration. 8.2. First-order acceleration sensitivity. 8.3. An estimate of second-order acceleration sensitivity and its reduction. 8.4. Second-order perturbation analysis. 8.5. Second-order normal acceleration sensitivity. 8.6. Effects of middle surface curvature. 8.7. Vibration sensitivity -- ch. 9. Pressure sensors. 9.1. A rectangular plate in a circular cylindrical shell. 9.2. A circular plate in a circular cylindrical shell. 9.3. A rectangular plate in a shallow shell. 9.4. A bimorph. 9.5. Surface wave pressure sensors based on extension. 9.6. Surface wave pressure sensors based on flexure -- ch. 10. Temperature sensors. 10.1. Thermoelectroelasticity. 10.2. Linear theory. 10.3. Small fields superposed on a thermal bias. 10.4. Thickness-shear modes of a free plate. 10.5. Thickness-shear modes of a constrained plate -- ch. 11. Piezoelectric generators. 11.1. Thickness-stretch of a ceramic plate. 11.2. A circular shell. 11.3. A beam bimorph. 11.4. A spiral bimorph. 11.5. Nonlinear behavior near resonance -- ch. 12. Piezoelectric transformers. 12.1. A thickness-stretch mode plate transformer. 12.2. Rosen transformer. 12.3. A thickness-shear mode transformer -- free vibration. 12.4. A thickness-shear mode transformer -- forced vibration -- ch. 13. Power transmissiion through an elastic wall. 13.1. Formulation of the problem. 13.2. Theoretical analysis. 13.3. Numerical results -- ch. 14. Acoustic wave amplifiers. 14.1. Equations for piezoelectric semiconductors. 14.2. Equations for a thin film. 14.3. Surface waves. 14.4. Interface waves. 14.5. Waves in a plate. 14.6. Gap waves. Print version record. This is the most systematic, comprehensive and up-to-date book on the theoretical analysis of piezoelectric devices. It is a natural continuation of the author's two previous books: "An Introduction to the Theory of Piezoelectricity" (Springer, 2005) and "The Mechanics of Piezoelectric Structures" (World Scientific, 2006). Based on the linear, nonlinear, three-dimensional and lower-dimensional structural theories of electromechanical materials, theoretical results are presented for devices such as piezoelectric resonators, acoustic wave sensors, and piezoelectric transducers. The book reflects the contribution to the field from Mindlin's school of applied mechanics researchers since the 1950s English. Piezoelectric devices Mathematical models. Dispositifs piézoélectriques Modèles mathématiques. SCIENCE Physics Electromagnetism. bisacsh SCIENCE Physics Electricity. bisacsh Piezoelectric devices Mathematical models fast Print version: Yang, Jiashi, 1956- Analysis of piezoelectric devices. Hackensack, NJ : World Scientific, ©2006 (DLC) 2007270022 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=210749 Volltext |
| spellingShingle | Yang, Jiashi, 1956- Analysis of piezoelectric devices / Ch. 1. Three-dimensional theories. 1.1. Nonlinear electroelasticity for strong fields. 1.2. Linear piezoelectricity for infinitesimal fields. 1.3. Linear theory for small fields superposed on a finite bias. 1.4. Cubic theory for weak nonlinearity -- ch. 2. Thickness-shear modes of plate resonators. 2.1. Static thickness-shear deformation. 2.2. Nonlinear thickness-shear deformation. 2.3. Effects of initial fields on thickness-shear deformation. 2.4. Linear thickness-shear vibration. 2.5. Effects of electrode inertia. 2.6. Inertial effects of imperfectly bounded electrodes. 2.7. Effects of electrode inertia and shear stiffness. 2.8. Nonlinear thickness-shear vibration. 2.9. Effects of initial fields on thickness-shear vibration -- ch. 3. Slowly varying thickness-shear modes. 3.1. Exact waves in a plate. 3.2. An approximate equation for thickness-shear waves. 3.3. Thickness-shear vibration of finite plates. 3.4. Energy trapping in mesa resonators. 3.5. Contoured resonators. 3.6. Energy trapping due to material inhomogeneity. 3.7. Energy trapping by electrode mass. 3.8. Effects of non-uniform electrodes. 3.9. Effectsof electromechanical coupling on energy trapping. 3.10. Coupling to flexure. 3.11. Coupling to face-shear and flexure. 3.12. Effects of middle surface curvature -- ch. 4. Mass sensors. 4.1. Inertial effect of a mass layer by perturbation. 4.2. Thickness-shear modes of a plate. 4.3. Anti-plane modes of a wedge. 4.4. Torsional modes of a conical shell. 4.5. Effects of inertia and stiffness of a mass layer by perturbation. 4.6. Effects of inertia and stiffness of a mass layer by variation. 4.7. Radial modes of a ring. 4.8. Effects of shear deformability ofa mass layer. 4.9. Thickness-shear modes ofa plate with thick mass layers. 4.10. An ill-posed problem in elasticity for mass sensors. 4.11. Thickness-shear modes of a circular cylinder. 4.12. Mass sensitivity of surface waves. 4.13. Thickness-twist waves in a ceramic plate. 4.14. Bechmann's number for thickness-twist waves. 4.15. Thickness-twist waves in a quartz plate -- ch. 5. Fluid sensors. 5.1. An ill-posed problem in elasticity for fluid sensors. 5.2. Perturbation analysis. 5.3. Thickness-shear modes of a plate. 5.4. Torsional modes of a cylindrical shell. 5.5. Thickness-shear modes of a circular cylinder. 5.6. Surface wave fluid sensors. 5.7. Thickness-twist waves in a ceramic plate -- ch. 6. Gyroscopes -- frequency effect. 6.1. High frequency vibrations of a small rotating piezoelectric body. 6.2. Propagation of plane waves. 6.3. Thickness vibrations of plates. 6.4. Propagating waves in a rotating piezoelectric plate. 6.5. Surface waves over a rotating piezoelectric half-space -- ch. 7. Gyroscopes -- charge effect. 7.1. A rectangular beam. 7.2. A circular tube. 7.3. A beam bimorph. 7.4. An inhomogeneous shell. 7.5. A ceramic ring. 7.6. A concentrated mass and ceramic rods. 7.7. A ceramic plate by two-dimensional equations. 7.8. A ceramic plate by zero-dimensional equations -- ch. 8. Acceleration sensitivity. 8.1. Deformation of a quartz plate under normal acceleration. 8.2. First-order acceleration sensitivity. 8.3. An estimate of second-order acceleration sensitivity and its reduction. 8.4. Second-order perturbation analysis. 8.5. Second-order normal acceleration sensitivity. 8.6. Effects of middle surface curvature. 8.7. Vibration sensitivity -- ch. 9. Pressure sensors. 9.1. A rectangular plate in a circular cylindrical shell. 9.2. A circular plate in a circular cylindrical shell. 9.3. A rectangular plate in a shallow shell. 9.4. A bimorph. 9.5. Surface wave pressure sensors based on extension. 9.6. Surface wave pressure sensors based on flexure -- ch. 10. Temperature sensors. 10.1. Thermoelectroelasticity. 10.2. Linear theory. 10.3. Small fields superposed on a thermal bias. 10.4. Thickness-shear modes of a free plate. 10.5. Thickness-shear modes of a constrained plate -- ch. 11. Piezoelectric generators. 11.1. Thickness-stretch of a ceramic plate. 11.2. A circular shell. 11.3. A beam bimorph. 11.4. A spiral bimorph. 11.5. Nonlinear behavior near resonance -- ch. 12. Piezoelectric transformers. 12.1. A thickness-stretch mode plate transformer. 12.2. Rosen transformer. 12.3. A thickness-shear mode transformer -- free vibration. 12.4. A thickness-shear mode transformer -- forced vibration -- ch. 13. Power transmissiion through an elastic wall. 13.1. Formulation of the problem. 13.2. Theoretical analysis. 13.3. Numerical results -- ch. 14. Acoustic wave amplifiers. 14.1. Equations for piezoelectric semiconductors. 14.2. Equations for a thin film. 14.3. Surface waves. 14.4. Interface waves. 14.5. Waves in a plate. 14.6. Gap waves. Piezoelectric devices Mathematical models. Dispositifs piézoélectriques Modèles mathématiques. SCIENCE Physics Electromagnetism. bisacsh SCIENCE Physics Electricity. bisacsh Piezoelectric devices Mathematical models fast |
| title | Analysis of piezoelectric devices / |
| title_auth | Analysis of piezoelectric devices / |
| title_exact_search | Analysis of piezoelectric devices / |
| title_full | Analysis of piezoelectric devices / Jiashi Yang. |
| title_fullStr | Analysis of piezoelectric devices / Jiashi Yang. |
| title_full_unstemmed | Analysis of piezoelectric devices / Jiashi Yang. |
| title_short | Analysis of piezoelectric devices / |
| title_sort | analysis of piezoelectric devices |
| topic | Piezoelectric devices Mathematical models. Dispositifs piézoélectriques Modèles mathématiques. SCIENCE Physics Electromagnetism. bisacsh SCIENCE Physics Electricity. bisacsh Piezoelectric devices Mathematical models fast |
| topic_facet | Piezoelectric devices Mathematical models. Dispositifs piézoélectriques Modèles mathématiques. SCIENCE Physics Electromagnetism. SCIENCE Physics Electricity. Piezoelectric devices Mathematical models |
| url | https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=210749 |
| work_keys_str_mv | AT yangjiashi analysisofpiezoelectricdevices |