Home
Technical
Service
Contact Us
Finance
Blind Cleaners
Links
Free Offer
Distance Meter
New products
new dual tank bench top cleaner launched, world first
Avoid disaster with an ultrasonic performance test.
The risk of incomplete sterilisation is high if medical instruments are not completely cleaned in the ultrasonic cleaner...A circuit board only partially ultrasonically cleaned of flux after a repair or creation could be subjected to arcing on the dirty sections causing damage.

Technical Information

Ultrasonic cleaning employs high frequency sound waves into a solution or solvent. These sound waves cause microscopic gas bubbles to expand to their limit which when collapse or implode cause a pressure wave.

This process is called cavitation and together with a solution or solvent force contamination from parts and instruments.

The operating frequency is an integral part of the cleaning process.
The lower frequencies generate a larger gaseous bubble which when collapses produces a much stronger shock wave.

At the higher frequency the microscopic bubbles will grow to a collapsible size at a more rapid rate causing many more times the number of implosions per unit time.

The temperature of a cleaning liquid also has significant impact on performance levels. Maximum cavitation intensity occurs at a temperature range of between 50 C – 60 C in aqueous solutions with a decline in efficiency evident above this to boiling. Heating helps to degas as well as increase the chemical action of the liquid. A proper combination of temperature and the gaseous condition of the liquid helps to achieve the best cavitation and overall cleaning results.
Liquids also play a significant role with two broad classifications being aqueous and solvent. The type of soil to be removed determines the type of liquid. Aqueous systems are best for inorganic soils, however by adding a detergent to the liquid many light greases and oils can be removed. Solvents best serve heavy organic grease, oil or waxy soils.

The following includes the 10 major factors that influence cleaning efficiency.


  1. Size and shape of tank
  2. Depth of the liquid in the tank
  3. Amount of dissolved soil in the liquid
  4. Trays or basket used to contain parts
  5. Number, size and shape of parts
  6. The density + composition of the cleaning fluid
  7. Type of liquid
  8. The temperature of the liquid
  9. The position of larger parts
  10. The operating frequency 

Unisonics Australia Pty Limited 8B, 9 Kenneth Road Manly Vale NSW 2093 Phone: 02 9948 3172 Mobile: 0431 899 815 Fax: 02 9949 3504 Free Call: 1800261668 email: admin@unisonics.com.au

Business Opportunity   |   Dual tank ultrasonic bench top cleaner   |   Equipment   |   Marketing   |   Solutions   |   Site Map   |   Blind Cleaners   |   Links
NetStarter - Web Designers Australia-wide