•Bending piezoelectric ceramics utilize innovative sintering and forming technologies (such as Gravity-Driven Sintering (GDS) and Ultrafast Shaping (USS)) to achieve complex geometries while maintaining high density and excellent piezoelectric properties. Their advantages include large displacement output (micrometer-scale), high-frequency response (kHz-level), and low hysteresis, making them ideal for applications requiring precise dynamic control. Through multilayer co-firing or ring-shaped designs, they can deliver forces of several tens of Newtons while ensuring rapid response and low energy consumption, perfectly meeting demanding industrial and research needs.

•Bending piezoelectric ceramics are the optimal choice for precision optics, active vibration damping, biomedical devices, and energy harvesting. They excel in laser beam steering, wing flutter suppression, ultrasonic probes, and microfluidic systems, while also providing reliable solutions for robotic joints, underwater acoustic detection, and lead-free electronics. Their rapid prototyping capabilities and material versatility (compatible with PZT/BaTiO₃) support customized production, helping customers push the boundaries of miniaturization, high-frequency operation, and smart applications.