Application of the hottest ultrasonic cleaning tec

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Application of ultrasonic cleaning technology in pharmaceutical glass bottles

ultrasonic can also be used for zigzag experiments of plates and rectangular materials of other specifications. The cleaning technology has been widely used by many pharmaceutical enterprises, especially in the cleaning of Xilin bottles, oral liquid bottles, ampoules, large infusion bottles, butyl rubber plugs and natural rubber plugs. For bottle cleaning, ultrasonic cleaning technology is used to replace the original brush machine. It is realized through the processes of turning water injection, ultrasonic cleaning, internal and external washing, air drying, turning and so on

related links: ultrasonic technology is one of the general technologies based on physics, electronics, machinery and materials. Ultrasonic technology is completed through the physical process of ultrasonic generation, transmission and reception. Ultrasonic wave has the characteristics of focusing, orientation, reflection and transmission. According to the difference of ultrasonic vibration radiation, it can be roughly divided into:

1. The power to change the object or physical properties with ultrasonic shall be called power ultrasonic, for example: enough energy is generated in the liquid to produce cavitation, which can be used for cleaning and emulsification

2. Using ultrasonic to obtain some information and communication applications is called ultrasonic testing. For example, using ultrasonic pulse reflection in the medium to test the thickness of objects is called ultrasonic thickness measurement

ultrasonic cleaning and application:

ultrasonic cleaning principle ultrasonic cleaning belongs to physical cleaning. Put the cleaning solution into the tank and act on the ultrasonic in the tank. As ultrasonic wave is a kind of dense vibration wave like sound wave, the pressure of medium changes alternately in the process of propagation. In the negative pressure area, tearing force is generated in the liquid, and vacuum bubbles are formed. When the sound pressure reaches a certain value, the bubbles grow rapidly. In the positive pressure region, the bubbles burst and close due to pressure. At this time, the liquid collides with each other to produce a strong shock wave. Although the displacement and velocity are very small, the acceleration is very large, and the local pressure can reach thousands of atmospheres. 8. Add water while adding materials during operation. This is the so-called cavitation effect that the test bench rises at the fastest speed

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