Electrically Excited Nonstationary Vibrations of Thin Circular Piezoelectric Plates

Shul’ga, N. À.; Grigor’eva, L. O.; Бабкова, Н.О.

doi:10.1007/s10778-014-0644-8

Cited by 5 publications

(5 citation statements)

References 12 publications

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“…The natural frequencies of electroelastic radial vibrations (11) are analyzed in [12]. Azimuthal vibrations (11), which cannot be excited electrically, are addressed for a fuller analysis of the results.…”

Section: Problem-solvingmentioning

confidence: 99%

“…When N = 0 (axisymmetric vibrations) and one (inner or outer) of the edges is clamped (boundary conditions (12) and (13)), the second, fifth, and seventh frequencies represent radial vibrations (10) and the first, third, fourth, and sixth frequencies represent azimuthal vibrations (11). When the edges are free, the first, third, and sixth frequencies represent radial vibrations and the second, fourth, fifth, and seventh frequencies represent azimuthal vibrations.…”

Section: Analysis Of Numericalmentioning

confidence: 99%

“…When the edges are free, the first, third, and sixth frequencies represent radial vibrations and the second, fourth, fifth, and seventh frequencies represent azimuthal vibrations. When one edge is clamped (boundary conditions (12) and (13)), the natural frequencies approach each other with increasing mode number. This is also true for the boundary conditions (14) (free edges), but the associated frequencies are lower.…”

Section: Analysis Of Numericalmentioning

confidence: 99%

“…The vibrations will be nonaxisymmetric with respect to the circumferential coordinate if the electroelastic sectors of a ring plate with radially cut electrodes are excited in antiphase. The circumferential vibration modes and the associated frequencies are determined by the number of radial cuts in the electrodes [2,3,11,12]. Here we will compare the frequency spectra of a plate with boundary conditions of three types.…”

Section: Introductionmentioning

confidence: 99%

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Effect of Boundary Conditions on the Natural Frequencies and Vibration Modes of Piezoelectric Plates with Radially Cut Electrodes

Levchenko

2015

Int Appl Mech

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Section: Problem-solvingmentioning

confidence: 99%

Section: Analysis Of Numericalmentioning

confidence: 99%

Section: Analysis Of Numericalmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Effect of Boundary Conditions on the Natural Frequencies and Vibration Modes of Piezoelectric Plates with Radially Cut Electrodes

Levchenko

2015

Int Appl Mech

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“…It appeared that the presence or absence of nonlinearity mentioned in [27][28][29] is due to an increase or a decrease in instantaneous power as a resonance is approached. However, this is beyond the scope of the present paper and should be studied separately.…”

Section: Admittance-frequency Response Of Piezoelectric Elements Withmentioning

confidence: 99%

Measuring the Amplitudes and Phases of Vibrations of Piezoceramic Structural Elements

Shul’ga

Карлаш

2015

Int Appl Mech

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The results on forced electromechanical vibrations of piezoceramic half-disks in some range of frequencies are systemized and generalized. Much attention is drawn to new experimental methods for studying the amplitude-frequency and phase-frequency characteristics Keywords: piezoceramic half-disk, forced vibrations, admittance, amplitude-frequency and phase-frequency characteristics, phase ratioIntroduction. Problems of the resonant and forced vibrations of piezoelectric bodies have been in the focus of attention of scientists for many decades due to the high efficiency of electromechanical energy conversion [1-5, 7-9, 11-16, 18-30, etc.]. In tests on piezoelectric vibrators, the mass, static capacitance, dimensions, characteristic (resonant and antiresonant) frequencies of and the voltage drop across the piezoelectric element and/or the pull-up resistor are directly measured [7-9, 11-15, 19-23, etc.] to determine, by various methods, the components of admittance and the active (real) and reactive (imaginary) components of the material constants. There are no methods for the direct measurement of the active and reactive components of admittance; therefore, they have to be determined indirectly, i.e., calculated by various approximate formulas.The recent studies [28][29][30] show that the behavior of piezoelectric vibrators at high power strongly depends on the type of electric loading. The admittance-frequency response at voltage of constant amplitude is essentially nonlinear, including abrupt drops and jumps. Such nonlinearity is absent if the current is of constant amplitude [30].The quest for ways to measure the electroelastic and viscoelastic coefficients of piezoelectric vibrators is still ongoing. A method for determining the Q-factor and piezoelectric modulus by differentiating the frequency-dependent active component of the admittance with respect to frequency is described in [5]. An interesting combined experimental/numerical procedure was proposed in [1] where the active components of the electroelastic material constants of piezoceramics are determined by measuring the resonant frequencies of various vibration modes of a rectangular rod from which a square plate is then cut out. In [25,26], it was shown that the values of the Q-factor at resonance (Q a ) and antiresonance (Q b ) are different, and Q a < Q b .Here we further develop experimental methods by searching ways of studying phase-frequency responses in some frequency range, generalizing and comparing resonance/antiresonance methods, and assessing the accuracy of values of some most frequently used parameters. For example, we will show that the classical two-port network (Mason circuit) provides tolerable errors only at characteristic frequencies, whereas in frequency ranges below resonance and between neighboring resonances there are considerable phase shifts between the current and the voltage drop across the piezoelectric element. An advanced Mason circuit with an additional switch allows reducing the effect of phase shifts. Combining the re...

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Forced Vibrations of an Open Cylindrical Shell Made of Piezoceramics

Карлаш

2015

Int Appl Mech

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Electrically Excited Nonstationary Vibrations of Thin Circular Piezoelectric Plates

Cited by 5 publications

References 12 publications

Effect of Boundary Conditions on the Natural Frequencies and Vibration Modes of Piezoelectric Plates with Radially Cut Electrodes

Effect of Boundary Conditions on the Natural Frequencies and Vibration Modes of Piezoelectric Plates with Radially Cut Electrodes

Measuring the Amplitudes and Phases of Vibrations of Piezoceramic Structural Elements

Forced Vibrations of an Open Cylindrical Shell Made of Piezoceramics

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