3.2L 120W Dental Ultrasonic Cleaner With Heater For Dental Office

How Whale Cleen sonic Dental Ultrasonic Cleaner Works?

Ultrasonic energy creates billions miniature bubbles in tank of the ultrasonic cleaners that implode with great force separating impurities from surface of the item you want to clean. Bubbles formed in cavitation process are capable of reaching into small cracks and fissures. They are practically mining dirt away from the surface in a more efficient manner than with manual scrubbing. Scrubbing has additional disadvantage that it requires staff to handle contaminated instruments.

Only after a thorough ultrasonic cleaning, disinfection and sterilization should be preformed. This order is important, because sterilized items can become contaminated in ultrasonic bath. Cleaner might contain blood, tissue or other impurities from previous use.

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Why You Need Whale cleen sonic Dental Ultrasonic Cleaner?

In most dental practices, instruments are cleaned in an ultrasonic cleaner. This type of unit removes bioburden by using sound waves generated by electrical energy.
As the sound waves move through the liquid cleaning solution, they cause the formation and bursting of millions of small bubbles. This “cavitation” process functions by disrupting chemical bonds, which hold the debris on instrument surfaces. This facilitates cleaning.
Only solutions that are formulated specifically for ultrasonic cleaners are to be used. The resulting cleaning of contaminated instruments is more efficient as compared to hand scrubbing with a scrub brush. Cleaning solutions also should be changed at least daily, or more frequently if visibly contaminated.
For many years, available ultrasonic solutions were detergent-type cleaners only. These worked by emulsifying oil and water, sometimes leading to formation of an oil film on the surface.
In the 1960s, a new generation of enzymatic cleaners became available in various industries. When used in commercial laundry detergents, the addition of enzymes increased the capability of the products to clean. It was not until much later that enzymatic detergent cleaners became available for dental facilities.
Enzymatic cleaners and instrument presoaks (i.e., holding solutions) are specifically formulated to loosen debris. Initially, the enzymatic ultrasonic cleaners contained a single proteolytic enzyme (a protease).
By having the ability to facilitate breakdown of adherent proteinaceous material (blood and saliva) into water-soluble components, these preparations were shown to efficiently clean difficult-to-remove debris from instruments.
Repeated studies demonstrated that they are able to dramatically reduce the need, if any, for hand scrubbing of instruments. Virtually all cleaning solutions designed for use in an ultrasonic unit contain at least one proteolytic enzyme.
As one might expect, enzymatic activity in a cleaner decreases with frequent use during the day, thereby diminishing the capability of the protease to break down and remove organic material. Thus, it is recommended that these cleaning solutions be changed daily, or sooner, if visibly contaminated.