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Ultrasonic cleaning is a fast, convenient and beautiful method of getting rid of dirt from off surfaces. However, a number of issues have to be got right if this method is to yield the required outcomes. The failure to adhere to these simple issues might compromise the final outcome adversely.Ultrasonic solution is one of them to consider.
In our discussions hereunder entitled, ‘The ABCs of Ultrasonic Cleaning,’ we are going to examine these issues in their finest details. When all is said and done, the insight you receive will definitely help you in making good use of this approach for the betterment of your own experience.
What is the ultrasonic carburetor cleaning solution (solvent)?
Ultrasonic carburetor cleaning solvent is basically a liquid cleaning solution which is capable of eliminating tough stains from the carburetor of your engine. This solution is extremely powerful and capable of eliminating all varnish, carbon dirt, and other forms of oil debris.
It is called ultrasonic in that it creates some ultrasonic waves which mix with a cleaning solution to generate the cleansing power. To get rid of dirt from off surfaces, all the structures to be cleaned are dipped into the solution.
The cleaning solvent thereafter generates some waves courtesy of the vibration actions. The vibrations are what is responsible for the cleaning actions. That is because they scour the surfaces concerned to eliminate all kinds of dirt that may be affixed onto the walls of the structures concerned.
Many manufacturers and brands are engaged in the production of these wonderful cleaning solutions. As of 2019, the following products have been noted to particularly stand out:
To find the most suitable one for your course, you have to factor the kind of surface you have in mind and the severity of the dirt. Then, go ahead to look for a solvent which closely mirrors your own expectations. You are highly advised against picking any at random. Chances are that you might not receive the satisfactory outcomes you badly yearn for.
How often should the ultrasonic solution be changed?
The frequency with which you have to change the solution largely depends on the kind of application at hand as well as the nature of the use of your machine. There are three main determinants of this metric. They are:
General Home Use
Home use and applications are very sensitive to dirt. Any slight contact with them will normally lead to contaminations, infections, and other hygiene-related infections. That is why you want to see to it that you change the solution after every use. Waiting too long may jeopardize yourself and put you at a vulnerable position.
Just like home use above, medical applications are also extremely sensitive to issues like dirt and stains. That is why you have to change the solution regularly, preferably once a day. This is to ward off the accumulation of stains and the undesirable adverse side effects of poisoning and infections. Specifically, such changes are recommended after the performance of specialized tasks.
Industrial uses are less affected by debris and dirt. That is why you have the pleasure and freedom to change the solution at a time when you can no longer make good of it. Generally, this is a time when the solution has lost all potency and may hence not generate the desired cleaning actions.
Most parts of the typical automobile are heavily affected by grease. Grease requires extremely potent solvents to eliminate. It hence goes that the solvent loses its potency considerably with each use. That is why it is a great idea to change the solution after each use. You do not want to obtain poor quality cleanliness outcomes later.
What is the best frequency for ultrasonic cleaning?
The best frequency for use in ultrasonic cleaning largely depends on the size of the item that is cleaned as well as the extent of the contamination. There are two main circumstances which inform the kind of frequency applicable for such cleanliness. We devote this last segment to their discussions.
Smaller parts generally require lower frequency sounds. That is because they are easily reachable by these waves and are also simpler to impact. Generally speaking, frequencies that range from 20-25 kHz are suitable for such circumstances of use. The same applies to the exposure times required.
Larger parts require frequencies that are higher. Frequencies that exceed 40 kHz are highly recommended for such kinds of applications. While cleaning them, you are also advised to expose the materials to the waves for an extended duration of time. The reason here is that they are often bombarded with too much dirt that slight exposure cannot eliminate.
Holes and Crevices
The existence of holes and crevices also determine the frequency which may be desirable for use. All factors considered a higher number of holes and crevices require that you apply higher frequencies. That is because they are more likely to penetrate these cracks and crevices to get to the core of the matter.
After reading through the explanations above, one thing stands out. That the ultrasonic cleaning is not as simple as it might appear. It is very detailed and delicate. To make the most of it, you have to be extremely attentive to details and follow the set-out standards to the letter.
Luckily, it is not an approach that is reserved for experts. Even as a beginner, it is possible for you to make good of it. You just have to compose yourself and then exercise some due diligence to have your way. We wish you all the best in your subsequent implementation process and exercise.