| Model name | F-480W |
| Internal tank size | 1200*400*400mm |
| Application | Clean Spray Flannel Mold |
| Function | Removing dirts, oil, rust, grease |
| Feature | No damage to precision mold |
| Tank capacity | 192L |
| Ultrasonic power | 2400W |
| Heating power | 6000W |
| Time control | 0~99 minutes |
| Temperature control | 20~95℃ |
| Water inlet / outlet | Yes |
| Voltage | 380V |
The higher the frequency, the higher the cavitation threshold, which means that to produce acoustic cavitation, the higher the frequency, the greater the sound intensity required. For example, to produce cavitation in water, the power required at 400kHz is 10 times greater than that at 10kHz. The frequency range generally used is 20-40kHz. The low frequency has high cavitation strength, which is suitable for the occasions where the surface of large cleaning parts and the surface of the cleaning parts have high bonding strength, but it is not easy to penetrate deep holes and parts with complex surface shapes, and the noise is large; higher frequencies have higher cavitation strength Weak, but low noise, suitable for cleaning with more complex surface shapes, slits and dirt and the surface of the cleaning part. Sound field distribution. A stable reverberation field is beneficial to cleaning. If there is a standing wave sound field in the cleaning tank, the cleaning parts cannot be cleaned uniformly due to uneven sound pressure distribution. Therefore, when possible, the geometry of the groove should be chosen to be suitable for establishing a mixed sound field. In addition, dual-frequency, multi-frequency, and frequency sweeping modes can be used to avoid cleaning the "dead zone".
Q1.How do I get the best ultrasonic cleaning?
There are many considerations important to ultrasonic cleaning. Optimizing these variables will produce the best cleaning. The most important decisions to be made are choosing the proper cleaning solution, cleaning at the right temperature for the correct amount of time, and choosing the right size and type of ultrasonic cleaner.
Q2.Can ultrasonic cleaning damage my parts?
With certain cautions, ultrasonic cleaning is considered safe for most parts. While the effects of thousands of implosions per second is very powerful, the cleaning process is safe since the energy is localized at the microscopic level. The most important cautionary consideration is the choice of cleaning solution. Potentially adverse effects of the detergent on the material being cleaned will be enhanced by the ultrasonic.
Q3.Why is a special solution required for cleaning?
Soils adhere to the parts... if they didn't, the soil would just fall off the parts! The purpose of the solution is to break the bond between parts and their soils. Water alone has no cleaning properties. The primary purpose of the ultrasonic activity (cavitation) is to assist the solution in doing its job. An ultrasonic cleaning solution contains various ingredients designed to optimize the ultrasonic cleaning process. For example, increased cavitation levels result from reduced fluid surface tension. An ultrasonic solution will contain a good wetting agent or surfactant.
Q4.What cleaning solution should I use?
Modern ultrasonic cleaning solutions are compounded from a variety of detergents, wetting agents and other reactive components. A large variety of excellent formulations are available, designed for specific applications. Proper selection is crucial for acceptable cleaning activity and to preclude undesirable reactivity with the part being cleaned.