Brief:Working Principle:Ultrasonic vibration with the ultrasonic transmission welding head to welding parts, as the two-welding lacoustic resistance and therefore produce local high temperature melt interface. Under certain pressure, make the two parts welding for a beautiful smooth flat and strong effect. The high-voltage, high-frequency signal generated by the sound generator is converted into high-frequency electrical energy through the transduction system.The converted high-frequency electrical energy is then converted by the transducer into high-frequency vibrations of tens of thousands of times per second.The welding mold head transmits the received vibration energy to the two plastic workpieces.The temperature at the interface rises instantaneously due to friction between the surfaces of the workpieces and among their internal molecules.When the temperature reaches the melting point of the workpiece itself, the surface of the workpiece interface melts rapidly.At the same time, it cools and shapes under a certain pressure, ultimately completing a perfect weld.Nowadays, ultrasonic welding is widely used in many industrial production fields.
Brief:Working Principle:Ultrasonic vibration with the ultrasonic transmission welding head to welding parts, as the two-welding lacoustic resistance and therefore produce local high temperature melt interface. Under certain pressure, make the two parts welding for a beautiful smooth flat and strong effect. The high-voltage, high-frequency signal generated by the sound generator is converted into high-frequency electrical energy through the transduction system.The converted high-frequency electrical energy is then converted by the transducer into high-frequency vibrations of tens of thousands of times per second.The welding mold head transmits the received vibration energy to the two plastic workpieces.The temperature at the interface rises instantaneously due to friction between the surfaces of the workpieces and among their internal molecules.When the temperature reaches the melting point of the workpiece itself, the surface of the workpiece interface melts rapidly.At the same time, it cools and shapes under a certain pressure, ultimately completing a perfect weld.Nowadays, ultrasonic welding is widely used in many industrial production fields.
Brief:Working Principle:Ultrasonic vibration with the ultrasonic transmission welding head to welding parts, as the two-welding lacoustic resistance and therefore produce local high temperature melt interface. Under certain pressure, make the two parts welding for a beautiful smooth flat and strong effect. The high-voltage, high-frequency signal generated by the sound generator is converted into high-frequency electrical energy through the transduction system.The converted high-frequency electrical energy is then converted by the transducer into high-frequency vibrations of tens of thousands of times per second.The welding mold head transmits the received vibration energy to the two plastic workpieces.The temperature at the interface rises instantaneously due to friction between the surfaces of the workpieces and among their internal molecules.When the temperature reaches the melting point of the workpiece itself, the surface of the workpiece interface melts rapidly.At the same time, it cools and shapes under a certain pressure, ultimately completing a perfect weld.Nowadays, ultrasonic welding is widely used in many industrial production fields.
Brief:Working Principle:Ultrasonic vibration with the ultrasonic transmission welding head to welding parts, as the two-welding lacoustic resistance and therefore produce local high temperature melt interface. Under certain pressure, make the two parts welding for a beautiful smooth flat and strong effect. The high-voltage, high-frequency signal generated by the sound generator is converted into high-frequency electrical energy through the transduction system.The converted high-frequency electrical energy is then converted by the transducer into high-frequency vibrations of tens of thousands of times per second.The welding mold head transmits the received vibration energy to the two plastic workpieces.The temperature at the interface rises instantaneously due to friction between the surfaces of the workpieces and among their internal molecules.When the temperature reaches the melting point of the workpiece itself, the surface of the workpiece interface melts rapidly.At the same time, it cools and shapes under a certain pressure, ultimately completing a perfect weld.Nowadays, ultrasonic welding is widely used in many industrial production fields.
