Piezoceramics are widely used in a variety of applications. Their unique piezoelectric properties enable precise measurements, accurate motion, and the conversion of energy into electrical signals. Here are some important applications of piezoceramics:
In ultrasound technology, it is used in medical ultrasound equipment to produce high-resolution images for diagnostic purposes. It also plays a role in industrial ultrasound equipment for cleaning, welding and cutting.
Piezoceramics are used in sensor technology. Pressure sensors, accelerometers and force sensors use the piezoelectric properties of ceramics to make precise measurements. They are used in areas such as aviation, the automotive industry, mechanical engineering and medical technology.
In actuator technology, piezoceramics enable precise movements and positioning. Piezoceramic actuators are used in precision positioning systems, optical systems, microscopy, robotics and other applications where high accuracy and fast response times are required.
Piezoceramic oscillating crystals are used in electronic devices such as watches, cell phones, computers and communication systems. They generate precise frequencies and contribute to the stability and synchronization of signals.
Piezoceramics are also used in industry, for example in materials testing, where they are used to determine material stiffness, fracture strength and damage detection.
Other applications include piezoelectric generators that convert mechanical energy into electrical energy, piezoelectric igniters in lighters, piezoelectric inkjet printers and piezoelectric metering pumps for precision metering.
Ongoing research and development in piezotechnology is constantly opening up new applications for piezoceramics. It is a key material in today's technological world, enabling innovative solutions in the fields of medicine, industry, communications, automotive and many others.