NOTES PERTAINING TO PUBLICATION, DISTRIBUTION, ETC.
Text of Note
Electronic
INTERNAL BIBLIOGRAPHIES/INDEXES NOTE
Text of Note
Includes bibliographical references (p. 237-241) and index.
CONTENTS NOTE
Text of Note
40. Boundary Layer at the Edge [alpha][subscript 2] = [alpha][subscript 20] (Preliminary Polarization along the [alpha][subscript 2]-Lines). 41. The Saint Venant Principle Generalized to Electroelasticity. Ch. 8. Interaction Between the Internal Electroelastic State and the Boundary Layer. 42. Two-Dimensional Electroelastic State with Great Variability in the Direction Normal to the Edge. 43. Boundary Conditions in the Theory of Shells with Thickness Polarization (Electrode-Covered Faces). 44. Boundary Conditions for a Shell with Thickness Polarization (Faces without Electrodes). 45. Boundary Conditions in the Theory of Shells with Tangential Polarization (Electrode-Covered Faces).
Text of Note
Ch. 6. Constructing Equations in the Theory of Piezoceramic Shells. 34. Shells with Thickness Polarization. 35. Pure Moment Electroelastic State of Shells with Thickness Polarization. 36. Shells with Tangential Polarization (Electrode-Covered Faces). 37. Shells with Tangential Polarization (Faces without Electrodes). Ch. 7. The Theory of Electroelastic Boundary Layer. 38. The Boundary Layer of a Shell with Thickness Polarization. 39. Boundary Layer at the Edge [alpha][subscript 1] = [alpha][subscript 10] (Preliminary Polarization along the [alpha][subscript 2]-Lines).
Text of Note
27. Forced Vibrations of a Circular Cylindrical Shell with Longitudinal Polarization (Axisymmetric Problem). 28. Forced Vibrations of a Circular Cylindrical Shell with Longitudinal Polarization (Nonaxisymmetric Problem). 29. Two Nonclassical Problems for Shells with Tangential Polarization. 30. Axisymmetric Tangential Vibrations of Circular Plates with Thickness Polarization. 31. Active Suppression of Vibrations in Electroelastic Bars and Round Plates by Means of Piezoeffect. 32. Resonance Method for Measuring Fluid Viscosity Using a Piezoelement. 33. Using a Piezoceramic Element with Thickness Polarization as a Strain Gauge -- Pt. II. Asymptotic Method as Applied to Electroelastic Shell Theory.
Text of Note
20. Simple Edge Effects in Electroelastic Shells with Thickness Polarization. 21. Simple Edge Effects in Shells with Tangential Polarization. 22. Boundary Conditions for the Principal Electroelastic State and Simple Edge Effect. Ch. 4. Approximate Methods for Computing Free and Forced Vibrations of Electroelastic Shells. 23. Free Vibrations of Shells with Thickness Polarization. 24. Free Vibrations of Shells with Tangential Polarization. 25. The Refined Membrane Dynamic Theory. 26. Forced Vibrations of Shells with Thickness Polarization. Ch. 5. Some Dynamic Problems in the Theory of Piezoceramic Plates and Shells.
Text of Note
10. Shells with Tangential Polarization (Electrode-Covered Faces). 11. Free Shells with Thickness Polarization. 12. Bimorphic Shells and Plates. 13. The Theory of Piezoceramic Plates with Thickness Polarization. 14. Plates with Tangential Polarization. Ch. 3. The Method of Partitioning a Static Electroelastic State. 15. Preliminary Remarks. 16. The Membrane Theory of Shells with Thickness Polarization. 17. The Membrane Theory of Shells with Tangential Polarization. 18. The Principal Stressed State of Shells with Tangential Polarization and Electrode-Covered Faces. 19. Pure Moment Electroelastic State of a Shell with Thickness Polarization.
Text of Note
Pt. I. Statics and Dynamics of Piezoelectric Shells and Plates. Ch. 1. Three-Dimensional Equations of Electroelasticity. 1. Preliminary Information. 2. Basic Equations. 3. Boundary Conditions in Electroelasticity Theory. 4. General Theorems on Electroelasticity. Ch. 2. Equations of the Theory of Piezoceramic Shells. 5. Two-Dimensional Equilibrium Equations. 6. Hypotheses of the Theory of Nonelectric Shells and the Saint Venant Principle. 7. Shells with Thickness Polarization (Electrode-Covered Faces). 8. Shells with Thickness Polarization (Faces without Electrodes). 9. Shells with Tangential Polarization (Faces without Electrodes).