|Material:||Stainless Steel 304||Application:||Clean Gas Turbine Parts|
|Option:||Oil Filteration||Industry:||Engine Part Ultrasonic Cleaner|
industrial ultrasonic parts cleaner,
automotive parts cleaning equipment
Engine Part Ultrasonic Cleaner Clean Gas Turbine Parts Long Large Industrial Part
Ultrasonic Cleaner Auto Industry
We are the manufacturers of custom built Ultrasonic Cleaning machines for degreasing and cleaning of auto parts for OEMs , work shops , job works and auto-restoration industry. We expertise in providing customized designed solution for auto parts cleaning.
Ultrasonic cleaning is a water based cleaning solution where ultrasonic transducers are used to provide cavitation agigation insude the tank which has waer and suitable chemical to clean oil,dirt,debree,grease and other contaminants from various types of auto components.
We expertise in all types of ancilary parts washing like brakepads, steering coloumns, crank shats, pistons, valves, gaskets, clutch pads, mirrors and many more.
Features of the machine:
•Low maintainence machine
•Heavy duty cleaning systems
•Chemical friendly- SS Rust proof body
•Industrial guage farication, build to last
•One year warrenty on any manufacturing defect
•Completely customized to suit the cleaning requirement
•Less human interfearance and less scope of error
•Accurate and uniform cleaning everytim
Powerful Industrial Ultrasonic Cleaner
The largest ultrasonic tanks can include tanks as big as 1,000 gallons or more. These units are meant for applications requiring lower frequencies (25-40 kHz), including larger or heavy duty equipment such as over-sized manufacturing parts, automotive and marine parts and large musical instruments. Units may have multiple built-in stages, including rinse and dry stations, and are sometimes automated
We all want to look our car shiny, and running smooth. And for this very reason timely servicing your car from inside out is one of the most important thing you should not avoid.
What ultraosnic can do ?
Ultrasonic cleaners remove dirt, oils, lubricants, carbon, rust,and other types of grime that build up on engines and mechanical parts. Grooves, internal passageways, seals, and other hard to reach areas are cleaned easily, eliminating hours of disassembling and reassembling complex parts. Carburetors, pistons, cylinder heads, aluminum parts, and brake calipers are a few examples of components that are cleaned thoroughly with no manual scrubbing in an ultrasonic cleaner
|Auto industry||engine parts, gear box, shock absorber, auto nozzle, cylinder, valve, Carburetors|
|Electrnoincs||PCB board, electronic parts, TV parts, computer parts|
|Aerospace and marine parts||Turbine blades, Marine Engine components, Overhaul parts, Pneumatics|
|Machinery||Moulds, precision parts, pressing parts, camera parts, bearing, hardware tools|
|Plating and Painting||polishing parts, SUS cutter, tableware, plating|
|Food industry||Oven tray, boiler, bottles, bottle cap, Hood Filters|
|Optical& watch tool||optical lens, eyeglass, sunglass, metal, gold, jewelry, diamond, watch band, watch cover, watch hand|
|Jewelry||Jewelry, diamond, gold, silver products|
|Dental and Medical||Dental Device, Medical Implant, beakers, bottles, vials, pipettes, or other labware.|
Why Use Automotive Ultrasonic Cleaner?
There are so many uses for an ultrasonic cleaner in an auto shop. Ultrasonic car parts cleaning saves time by eliminating the need for manual scrubbing of auto parts covered with grease, oil, and other lubricants. Besides freeing up time, the hazardous chemicals can be replaced with biodegradable soaps. Specific examples of items that are commonly cleaned by a benchtop ultrasonic cleaner include filters, shock absorber parts, power steering parts, pistons, valves, fuel injectors, bearings – just to name a few. Larger industrial-sized units can be used for carburetor ultrasonic cleaning and ultrasonic exhaust manifold cleaning, where cleaning action is needed deep within the network of passages. This large capacity also allows for ultrasonic crankshaft cleaning and ultrasonic cylinder block cleaning as well the means to clean multiple parts at once.
Cylinder Heads And Engine Blocks Ultrasonic Cleaners
Automotive Ultrasonic Cleaners is primarily an aqueous tank systemthat uses ultrasonic energy to remove dirt, grease, oiland baked-on carbon from parts. Contaminants such aspaint, rust, glued-on gaskets, and heavy layers of bake don carbon can also be removed by ultrasonic cleaning but require more aggressive chemistries. Unlike someother cleaning processes, ultrasonic cleaning will notdamage intricate, lightweight, or easily damaged parts.
Welcome to Cylinder Heads And Engine Blocks Cleaning, Truck Engine Parts Cleaning,
Our Ultrasonic cleaning process, can effectively clean the following components- Cylinder Heads And Engine Blocks And Aircraft Parts ,Aluminum castings, engine blocks, Carburetors, Cylinder Heads, Engines, Engine Components, Gear Boxes, Filters, Tubes and Valves.
AG Cylinder Heads And Engine Blocks ultrasonic cleaning machine are revolutionizing cleaning methods and processes on the Valve Plates , our Valve Plates And Aircraft Parts ultrasonic cleaning machine can clean all kinds of automotive, aircraft, and marine engine parts, ultrasonic technology for cleaning parts eliminates manual labor while providing you with superior cleaning action, most parts can be cleaned with environmentally friendly water-based solutions
ultrasonic tank models
Basics and spcifictaion
|Interior tank size:||4000*1500*1000 mm|
|Material:||Stainless steel 304|
|Transducers;||With 648 pieces transducers;|
|Ultrasonic power||34.2 KW|
|Generator power||220V, 50/60HZ|
|Working voltage:||380V 50HZ;|
1) Capacity 6000 liters, to load the turbochargers,marine parts;
2) Load weight capacity :3000kg
3) Time set up from 1 second to 99 hours. You just need to set up time and walk away till the wash cycle finished
How to use :
Fill with water in the ultrasonic tank, add some detergent as directions.
Set up time and tempeature;
Why Use Cylinder Head Engine Block Cleaning ?
Agsonics is renowned for their professional cleaning service to the motor industry.
How does ultrasonic cleaner technology clean?
Cavitation bubbles are vacuum cavities as tiny as red blood cells, or about 8 thousandths of a millimeter across. They are so small that it would take 1,250 of them lined up in a row to reach 1 cm long.
Under pressure of continuous vibration, these bubbles stretch and compress at a fast rate. Once they reach a certain size, as determined by the frequency and strength of the sound waves produced, the bubbles lose structural integrity and collapse violently. When these implosions happen near a surface, the bubbles emit high-powered streams of plasma that travel at more than 500 miles per hour and collide with, agitate and remove even very tiny particles and substances from that surface.
AG Engine block ultrasonic cleaning machine
Suitable for all types of engine parts
AG engine block ultrasonic cleaning machine effectively and thoroughly clean all types of engine parts
01: Automotive: thoroughly removes carbon deposits, grease, and other types of dirty and contaminants from carburetor, exhaust manifolds, cylinder blocks, 2-stroke and 4 stroke motorcycle engines, snow machines, ATV cylinders and heads, and more.
02: Marine: Suitable for inboard and outboard motors, the cleaning chemistry is both thorough and gentle on the aluminum parts reducing the risk of future corrosion
03: Aircraft: The high performance demands of aircraft engines establish the need for an intensive cleaning process that will restore the engine part to near original condition, our engine block ultrasonic cleaning machine easily, thoroughly, and safely clean both large and small parts, turbine blades, fuel nozzles, generator components, brakes and other parts that require periodic cleaning are all effectively and thoroughly cleaned using the ultrasonic cleaning process
How the System Operates:
The system operates in the following manner:
In a process termed "cavitation", micron-size bubbles form and grow due to alternating positive and negative pressure waves in a solution. The bubbles subjected to these alternating pressure waves continue to grow until they reach resonant size. Just prior to the bubble implosion, there is a tremendous amount of energy stored inside the bubble itself. Temperature inside a cavitating bubble can be extremely high, with pressures up to 500 atm. The implosion event, when it occurs near a hard surface, changes the bubble into a suction jet about one-tenth the bubble size, which travels at speeds up to 400 km/hr away from the hard surface. With the combination of pressure, temperature, and velocity, the jet frees contaminants from their bonds with the substrate. Because of the inherently small size of the jet and the relatively large energy, ultrasonic cleaning has the ability to reach into small crevices and remove entrapped soils very effectively.
What is cavitation?
"Cavitation" is the rapid formation and collapse of millions of tiny bubbles (or cavities) in a liquid. Cavitation is produced by the alternating high and low pressure waves generated by high frequency (ultrasonic) sound. During the low pressure phase, these bubbles grow from microscopic size until, during the high pressure phase where they are compressed and implode.
What is Degassing?
"Degassing" is the initial removal of gases present in the solution. Non removal or "trapped Gas" in the cleaning solution leads to gaseous cavitation where bubbles cannot effictivly form, useful cavitation occurs after gasses have been removed from the cleaning solution, leaving a vacuum in the formed bubble. When the high pressure wave hits the bubble wall, the bubble collapses; it is the energy released by this collapse that will assist a detergent in breaking the bonds between parts and their soils.
How do I "Degas" my ultrasonic Cleaner?
A. Once filled with water the ultrasonics should be left operating for a few minutes so that excess air is driven from the liquid. Tiny bubbles will be seen to rise to the surface but this is gaseous cavitation and not suitable for cleaning. At the end of the de-gasing period, a hissing sound and a churning of the liquid surface (cold boiling) should occur indicating vaporous cavitation.