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A Ultrasonic cleaning can be gentle enough to clean delicate objects such as jewelry or eyeglasses, but it is important to use a cleaning solution that is safe for the object and to follow the manufacturer's instructions carefully. In some cases, it may be necessary to use a specialized cleaning basket or holder to prevent damage to the object.
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A Ultrasonic is sound generated beyond human audible level. In real life, high pitch sound is created by high frequency, and alternatively, the low and base tone is created by low frequency. Frequencies above 16 kHz in general are being considered as ultrasonic. Typical ultrasonic frequencies used for cleaning purpose are from 20 kHz to 80 kHz.
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A Ultrasonic technology uses high-frequency sound waves to create microscopic bubbles in a liquid, which then implode and create tiny shock waves that help to dislodge dirt, grime, and other contaminants from the surface of an object. Ultrasonic technology is used in a wide range of applications, including cleaning, welding, and medical imaging.
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A High frequency sound waves are used to generate alternating high and low pressure waves more than 40,000 times per second. As these waves pass through our specially formulated cleaning solution, millions of tiny vacuum bubbles form and burst violently. This process, called cavitation, creates a scrubbing action that can be up to 16 times more effective than manual cleaning. Within minutes, all dirt and foreign matter is removed from even the smallest grooves, crevices and internal areas of the object being cleaned.
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A Ultrasonic cleaning works by subjecting the object to be cleaned to high-frequency sound waves in a liquid bath. The sound waves create tiny bubbles in the liquid, which then implode and create a scrubbing action that helps to remove dirt and contaminants from the surface of the object.
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A The air in the liquid will affect cavitation and reduce the ultrasonic power. Degassing can quickly degas the cleaning liquid, the resistance of the bubbles generated by the ultrasonic cavitation reaction will be reduced, and the ultrasonic cleaning effect will be better. In addition, it can also play a role in preventing oxidation.
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A The frequency sweep function means that through the circuit program, the ultrasonic frequency can be controlled within a range of addition and subtraction. Under normal circumstances, after the ultrasonic wave vibrates at one frequency for a long time, the water, liner and objects will resonate. By means of frequency sweeping, the frequency can be changed in real time, thereby eliminating the resonance, improving the cavitation effect and improving the cleaning effect.
The frequency sweep function can make the ultrasonic power evenly distributed in the whole tank to meet higher cleaning requirements
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A 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.