Ultrasonic technology can be used to clean a range of goods such as metals, plastics, glass, rubber, and ceramics.
You may be familiar with seeing ultrasonic cleaners used in jewelry shops and for cleaning glass lenses and other optical parts, as well as for watches, dental and surgical instruments, tools, coins, fountain pens and
much more.
These cleaners can effectively remove a wide variety of contaminants, even if present only in trace amounts, including dust, dirt, rust, oil, grease, soot, mold, carbon deposits, polishing compounds, wax, pigments, limescale, bacteria, algae, fungus, fingerprints, and biological soil.
How Ultrasonic Cleaners Work
These ultrasonic cleaners work by sending ultrasounds through a liquid. When the sound strikes against a solid object, it creates millions of tiny cavitation bubbles. These cavitation bubbles are basically tiny, collapsing, vacuum-filled bubbles. The pressure of continuous vibration means that these microscopic bubbles stretch and compress at a super-fast rate. Once the bubbles reach a specific size, according to the frequency and strength of the sound waves produced, the bubbles lose their structural integrity and collapse violently. As these bubble implosions happen near a solid surface, the bubbles emit high-powered streams of plasma that collide with, agitate and remove even foreign particles and substances from that surface.
This is how they can clean even the toughest grime from solid objects of many different types of materials.
Specifications:
Material: ABS+stainless steel
Rated power: 9W
Rated voltage: 12V
Color: white, green (optional)
Ultrasonic frequency: 45kHz
Capacity of cleaning tank: about 300ml
Package size: 10.4 * 4.3 * 4.1in
Package weight: 575g / 1.3lb
Packing list:
1 * Ultrasonic Cleaning Machine
1 * Adapter
1 * User Manual
Note: This product has been shipped from overseas. The estimated shipping is 15 - 20 business days. If ordered with other items from our site, they will be shipped separately, and the customer will receive two separate tracking references.