Ultrasonic cleaning machines use a process that combines ultrasonic waves with water or solvents to remove dirt and other contaminants from industrial equipment, tools, and parts.

Ultrasonic wave produces high frequency and high amplitude vibration, which leads to the formation of submicroscopic bubbles on the surface of the object. These bubbles then implode (called cavitation) , pulling contaminants away from the surface with the help of a cleaning fluid, soften or break down debris, compounds, oils, shavings, fingerprints, skin, blood, mold, bacteria, and other contaminants. Traditional cleaning methods can not do the job quickly or effectively.

The gentle yet powerful nature of the ultrasonic washer ensures that your part cleaning needs will be met externally and internally, even in parts with blind holes, complex cavities, and other surface cleaning challenges, nor does it leave any surface.

Ultrasonic cleaning equipment for oil field equipment cleaning and precision computer chips to provide power.

The main advantages of using advanced ultrasonic technology

Precision cleaning

The combination of cavitation and cleaning technologies is an excellent cleaning application compared to almost any other available industrial-grade cleaning method. From small to large applications, you can not beat our equipment and liquid cleaners to achieve and remove surface contaminants.
Speed

The average ultrasonic cleaning cycle for industrial applications is less than 10 minutes. The timing depends on the size of the component, its composition and contaminants, as well as the frequency, temperature and type of soap or detergent used.

Extend the life of parts

By improving the quality of part cleaning while cleaning safely, parts can work at maximum efficiency under less pressure due to surface damage caused by partial cleaning or other methods.

Employee safety

Human interactions with acids and petroleum-based solvents can cause rashes and respiratory irritation. Use detergents, usually water-based or non-toxic, to reduce the risk of personal injury and worker compensation claims. Acoustic cleaning troughs also typically include standard or additional automation features to further limit the process of human-machine interaction.