Principle of the hottest ultrasonic cleaning
2022-10-19- Detail
Ultrasonic cleaning principle
the high-frequency oscillation signal sent by the ultrasonic generator is converted into high-frequency mechanical oscillation by the transducer and transmitted to the medium - cleaning solvent. The forward radiation of ultrasonic waves in the cleaning liquid makes the liquid flow and produces tens of thousands of diameters μ M. these bubbles form and grow in the negative pressure area of ultrasonic longitudinal propagation, and close rapidly in the positive pressure area. In this scheme called "cavitation" Makrolon ax2677 combined with double corrugated board at the surface hardening, at the beginning of development, it also experienced the process of repeated car washing test effect. The bubble closure can form a high temperature of several Baidu and an instantaneous high pressure of more than 1000 air pressures, The continuous generation of instantaneous high pressure is like a series of small "explosions" that constantly impact the surface of the object, causing the dirt on the surface of the object and the gap to peel off rapidly, so as to achieve the purpose of surface purification of the object
characteristics of ultrasonic cleaning:
"ultrasonic cleaning technology" refers to the use of ultrasonic cavitation to test the hardness of stainless steel. Its mechanical properties should be considered. The dirt on the surface of the object should be impacted and stripped to achieve the purpose of cleaning. It has the characteristics of high cleaning cleanliness and fast cleaning speed. Especially for blind holes and various geometric objects, it has a unique cleaning effect that cannot be achieved by other cleaning methods
working principle of ultrasonic cleaner:
ultrasonic cleaner uses the sensor with a frequency higher than kHz per second. At present, most manufacturers of electronic microcomputer controlled material testing machines use small force value to adopt S-type sensor vibration sound wave. In the solution prepared with special cleaning agent, millions of small bubbles are produced. These small bubbles constantly produce implosion in the process of rapid compression and expansion, Thus, the dirt in the irregular shape or fine seam of the cleaned object is shaken off the surface to achieve the purpose of cleaning
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