Description

Key Advantages
Ultra-High Sensitivity
Boasts exceptional piezoelectric coefficients (d??: 1100?C2200 pC/N), enabling efficient conversion between electrical signals and mechanical vibrations. This sensitivity ensures clear detection of weak acoustic echoes??critical for high-resolution medical ultrasound (e.g., fetal imaging) or NDT of small structural defects.
Broad Bandwidth
Supports a wide range of operating frequencies, from low-frequency sonar (kHz) to high-frequency medical ultrasound (MHz). This versatility allows seamless integration into multi-mode systems, such as dual-frequency NDT probes or hybrid ultrasound/Doppler devices.
High Power Output
Delivers strong acoustic energy under high-voltage excitation, making it ideal for long-range underwater applications (e.g.,marine mapping) where signal strength determines detection range.
001 Polarization
Optimized crystallographic orientation enhances piezoelectric response and stability, ensuring consistent performance across temperature variations and mechanical stress??vital for industrial NDT tools or rugged marine equipment.
Dual Configurations for Flexibility
Low Dielectric (28?C30% PT): Balances sensitivity and stability with lower dielectric constant (3500?C5000) and loss (<0.5%), ideal for high-precision applications like medical ultrasound transducers. High Dielectric (30?C33% PT): Offers higher piezoelectric coefficients (d??: 1600?C2200 pC/N) and broader bandwidth, suited for high-power systems like sonar arrays or large-area NDT scanners. Technical Specifications Both Low Dielectric (28?C30% PT) and High Dielectric (30?C33% PT) materials share the same density of 8.1 g/cc and Poisson??s Ratio of 0.32. For mechanical properties, their Elastic Constant (S???) is 40??10?12 m2/N and 50??10?12 m2/N respectively, while the Elastic Constant (S???) is 8.1??10?12 m2/N for both. In terms of piezoelectric properties, the Piezoelectric Coefficient (d??) ranges from 1100?C1600 pC/N for the low dielectric type and 1600?C2200 pC/N for the high dielectric type; the Piezoelectric Coefficient (d??) is -600 pC/N and -800 pC/N respectively. The Electromechanical Coupling Factor (K??) is 0.85?C0.90 for the low dielectric material and 0.90?C0.95 for the high dielectric one. Both materials have a Curie Temperature of 148??C. Regarding electrical properties, the Dielectric Constant is 3500?C5000 for the low dielectric type and 4000?C6000 for the high dielectric type; the Coercive Field is 3.0 kV/cm and 2.5 kV/cm respectively; and the Loss (tan??) is <0.5% for the low dielectric material and <0.9% for the high dielectric one. Applications Medical Ultrasound Diagnostic Imaging: Enables high-resolution 2D/3D ultrasound in obstetrics, cardiology, and ophthalmology, where its sensitivity captures subtle tissue contrasts. Therapeutic Ultrasound: Used in focused ultrasound therapy (e.g., tumor ablation) due to precise energy delivery. Non-Destructive Testing (NDT) Industrial Inspection: Detects internal defects in metals, composites, and ceramics (e.g., aircraft components, pipelines) with high accuracy, leveraging broad bandwidth to adapt to varying material thicknesses. Underwater Acoustics (Seafloor Sonar): Powers high-resolution mapping of seabeds, detecting underwater terrain, wrecks, or geological structures. Marine Mapping & Communication: Supports long-range underwater data transmission and environmental monitoring (e.g., tracking marine life or measuring ocean currents).