New tool day brings a special feeling. It’s born of bliss, measured in hours, playing with the latest addition to the garage arsenal. We never tire of broadening our “I can fix that” aptitude to corners of the automotive that were previously inaccessible. “No longer,” we say as we swipe the credit card or hand over cash at a garage sale. “This weekend will be different.”
When the big brown truck of possibilities dropped off a large box for me last week, I recited these very words. Because of all the tasks that fill my time each week, the one I’d love to streamline is cleaning parts and pieces. The process usually soaks up mountains of minutes and, at the end, often leaves me feeling only mildly accomplished. Lacking the space for a large parts washer or a solvent tank for soaking, I turned to an ultrasonic cleaner. Listen up, ye wrenchers: I am here to evangelize the high-frequency gospel.
How an ultrasonic cleaner works
The ultrasonic cleaner on my workbench is essentially a speaker box. But instead of music it produces the most annoying noise on Earth this side of Ford’s seatbelt reminder chime. The speaker is actually a transducer mounted in the tub of the machine, where you’d normally expect to find a center drain. The transducer emits high-frequency sound waves into the tub. Normal sound waves are referred to as sonic waves, while these high-frequency waves are considered ultrasonic.
The sound waves agitate the solution inside the tub and in turn cause cavitation—the formation and collapse of very small bubbles up against the surface of the object submerged in the solution. Cavitation effectively scrubs the part and in turn removes oil, dirt, and debris. Adjusting the solution, or even just the temperature of it, can change the cleaning power from extremely mild to decently aggressive.
What ultrasonic cleaners can do
Yes, ultrasonic cleaners can replace all the hand-cleaning that ordinarily needs to be done for a part-cleaning project. That is indeed the beauty of this tool, but the best practice still involves a little bit of elbow grease. The best approach is to knock the worst grime or filth off any part before it goes into the bath, if for no reason other than to keep the solution and tank cleaner for longer. Doing this preemptive work also allows for shorter cleaning times and, ultimately, better results. Just a quick scrub with a wire brush is enough, plus a wipe with a rag. Then on into the solution.
Once submerged, the part will be subject to the aforementioned cavitation. That will break free everything else that is stuck onto it—including whatever gunk is hiding deep inside the part, as in small passageways or nooks and crannies left from the casting process. Suddenly, all those pain-in-the-butt places to clean are no longer a pain. Drop the part in the tub, press start, and move on to the next piece.
The key items that prompted me to invest in an ultrasonic cleaner are these motorcycle engine case halves, plus the side covers. The oil passageways snake through the castings, and the last thing I wanted to do while cleaning was accidentally damage the threads for the banjo bolts that carry oil to the notoriously delicate valvetrain. The ultrasonic cleaner allows me to drop in those parts, fiddle with a few other things around the garage, come back and rinse the parts, then blow dry. That’s it; no solvents, no gloves. Heck, I don’t even have to worry about caustic liquid drips when I pull parts out, because my cleaning solution of choice is just distilled water and a little dish soap. Harmless!
Plan on cleaning the cleaner
An ultrasonic cleaner does have a downside: maintenance. The tub is a closed system—no circulation pump or anything—meaning the solution inside quickly becomes a broth of all the nasty things that the cavitation broke free. Some of the time you save cleaning parts translates into time cleaning the machine. Luckily, the Vevor unit I bought has an integrated drain inside what is not much more than a stainless-steel tub. Easy enough to wipe up and then refill.
The time saver
There is an even savvier strategy available for those who find even a simple wipe-up to be a little annoying. (Or maybe the idea of hazardous, oily water sitting around is something you’d prefer to keep contained.) That’s where jars or other sealed containers—filled with cleaning solution—come in handy; this method leaves you with smaller amounts of dirty broth.
Sound waves travel freely through plastic or glass with no diminished cleaning efficacy. The ultrasonic cleaner therefore does not care if the parts are submerged in the primary solution or the contained solution inside the jar. The water in the tub stays clean this way, which means the machine is always ready. Just toss your part in a jar and into the water and let the machine run. It’s a great option for smaller parts, in particular.
It’s (probably) not as great as you think
Not for me, anyway. I pictured just dropping parts in the first time, pushing a button, and pulling them out looking perfect and ready to go. Instead, there is a learning curve when it comes to choosing solutions and an overall process.
For me it meant getting over the fear of cleaning aluminum. Choose the wrong solution and there is a chance of cavitation pitting or even lose material. Lower frequency, like the 40-Hz found in most home machines, creates larger bubbles which are more powerful when they collapse—powerful enough that it can tear soft aluminum. Try a sheet of tin foil in an ultrasonic cleaner and watch it get torn to shreds; that could happen to the surface of the piece you are trying to restore.
So with that in mind, this is †not the be-all end-all garage accessory. It is a really handy thing, though. If you are at all like me and have the basics tools for DIY maintenance and upkeep of vintage machines already covered, an ultrasonic cleaner might be worth it. The cost has come down enough that even ones like the 15-liter unit I purchased can be had for under $200. With this tool in my arsenal, my favorite sub-$1000, “just needs carb work” motorcycles from online classifieds don’t stand a chance against my newfound cleaning confidence.
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Insights, advice, suggestions, feedback and comments from experts
Introduction
As an automotive enthusiast and experienced mechanic, I can provide you with valuable insights and information about ultrasonic cleaners and their applications in cleaning automotive parts. I have extensive knowledge and hands-on experience in using ultrasonic cleaners to streamline the cleaning process and achieve excellent results.
Understanding How Ultrasonic Cleaners Work
Ultrasonic cleaners utilize high-frequency sound waves to clean objects submerged in a solution. The cleaner consists of a transducer, which emits these high-frequency sound waves into the cleaning tub. The sound waves create cavitation, which is the formation and collapse of small bubbles against the surface of the object being cleaned. This cavitation process effectively scrubs away oil, dirt, and debris from the part.
Benefits and Applications of Ultrasonic Cleaners
Ultrasonic cleaners offer several advantages and can replace traditional hand-cleaning methods for part-cleaning projects. Here are some key benefits and applications:
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Efficient Cleaning: Ultrasonic cleaners can remove stubborn grime and dirt from parts, including hard-to-reach areas such as small passageways and crevices left from the casting process. The cavitation process ensures thorough cleaning, even in intricate parts.
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Time-Saving: While some pre-cleaning may be necessary to remove the worst grime or filth from the part, ultrasonic cleaners significantly reduce cleaning times compared to manual methods. The cavitation process works efficiently, allowing you to move on to the next piece while the cleaner does its job.
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Versatility: Ultrasonic cleaners can be used for various automotive parts, including engine components, carburetors, fuel injectors, and more. They are particularly useful for cleaning motorcycle engine case halves and side covers, where oil passageways can be challenging to clean without damaging delicate threads.
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Safe and Environmentally Friendly: Ultrasonic cleaners can be used with a variety of cleaning solutions, including mild options like distilled water and a little dish soap. This makes them a safer and more environmentally friendly alternative to harsh solvents.
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Maintenance: It's important to note that ultrasonic cleaners require regular maintenance. The cleaning solution inside the tub can become contaminated with debris, so it's necessary to clean the machine periodically. Some models, like the Vevor unit mentioned in the article, have integrated drains for easy cleaning and refilling.
Tips for Using Ultrasonic Cleaners
To achieve the best results with an ultrasonic cleaner, consider the following tips:
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Pre-Cleaning: Before placing a part in the ultrasonic cleaner, it's recommended to remove any loose dirt or grime manually. This helps keep the cleaning solution and tub cleaner for longer and improves overall cleaning efficiency.
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Solution and Temperature: Adjusting the cleaning solution or its temperature can affect the cleaning power of the ultrasonic cleaner. Experiment with different solutions and temperatures to find the optimal settings for your specific cleaning needs.
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Elbow Grease: While ultrasonic cleaners can handle most of the cleaning process, some parts may still require a bit of manual scrubbing. Use a wire brush or a rag to remove any remaining grime after the part has been cleaned in the ultrasonic cleaner.
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Safety Precautions: When using an ultrasonic cleaner, it's important to follow safety guidelines. Avoid using solutions that can damage the part or the cleaner itself. Additionally, wear appropriate protective gear, such as gloves, when handling cleaning solutions or parts.
Conclusion
Ultrasonic cleaners are powerful tools for efficiently and effectively cleaning automotive parts. They offer numerous benefits, including time-saving, thorough cleaning, and versatility. By following proper cleaning techniques and maintenance procedures, you can make the most of your ultrasonic cleaner and achieve excellent results in your automotive projects.
Remember, if you have any specific questions or need further assistance, feel free to ask!
