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Material Pzt4 Pzt5 Pzt8 Tube Disc Ring Different Piezoelectric Ceramic Piezo Ceramic Pzt

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17 - Material Pzt4 Pzt5 Pzt8 Tube Disc Ring Different Piezoelectric Ceramic Piezo Ceramic PztThe principle of piezoelectric ceramic transducer is that when pressure or tension is applied to the ceramic plate, opposite polarity charges are generated at both ends of the ceramic plate, and current is generated through the circuit. This effect is called the piezoelectric effect. Therefore, in the design of ultrasonic transducers, various factors should be considered, such as acoustic impedance, frequency response, impedance matching, acoustic structure, vibration mode, and conversion material, as well as how to design and coordinate these factors to achieve the optimal value of electro-acoustic conversion. Piezoelectric ceramic transducers, as an energy transmission network, have energy conversion efficiency issues.

spec Dimension
(mm)
Radial frequency
(KHz)
Capacitance
(pf)
Dielectric dissipation factor
tanδ(%)
Electromechanical coupling coefficient
(Kr)
Impedance
Zr(Ω)
Thickness frequency
(KHz)
PU-PC25103 Φ25×Φ10×3 66.4 1240±12.5% ≤0.3 ≥0.46 ≤15 683±5%
PU-PC225104 Φ25×Φ10×4 66.4 930±12.5% ≤0.3 ≥0.46 ≤15 512±5%
PU-PC40155 Φ40×Φ12×5 45.9 2070±12.5% ≤0.3 ≥0.46 ≤15 410±5%
PU-PC40155 Φ40×Φ15×5 42.2 1960±12.5% ≤0.3 ≥0.46 ≤15 323±5%
PU-PC40176 Φ40×Φ17×6 40.5 1555±12.5% ≤0.3 ≥0.46 ≤15 341±5%
PU-PC40205 Φ40×Φ20×5 37.9 1700±12.5% ≤0.3 ≥0.47 ≤15 410±5%
PU-PC50206 Φ50×Φ20×6 33.2 2490±12.5% ≤0.3 ≥0.46 ≤15 341±5%
PU-PC501765 Φ50×Φ17×6.5 34.8 2430±12.5% ≤0.3 ≥0.46 ≤15 315±5%
PU-PC50236 Φ50×Φ23×6 31.2 2340±12.5% ≤0.3 ≥0.47 ≤15 341±5%
PU-PC50276 Φ50×Φ27×6 29.3 2100±12.5% ≤0.3 ≥0.47 ≤15 341±5%
PU-PC603010 Φ60×Φ30×10 25.3 1922±12.5% ≤0.3 ≥0.47 ≤18 205±5%

Material Pzt4 Pzt5 Pzt8 Tube Disc Ring Different Piezoelectric Ceramic Piezo Ceramic Pzt

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