In addition to the duration of the cleaning process and the appropriate temperature, the choice of the right solvent and, of course, the most suitable cleaning method are decisive factors for an optimum cleaning result; in short: De-oiling, degreasing and cleaning.
Depending on the workpiece and capacities, we check the parts handling, select the appropriate workpiece carrier basket and, thanks to our experience, find the optimum combination of different methods for you.
To clean organic contamination, the components with more complex geometries are completely immersed in a wet medium bath.
More...By heating the wet medium and additionally reinforced by the mechanical effect of moving of the parts in the bath, the adhering contaminants are removed from the surface. Finally, the components are rinsed and dried.
Ultrasonic waves are generated by transducers to trigger tensile and compressive stresses in the wet medium during immersion cleaning.
More...In the so-called cavitation effect, the vibrations create cavities that immediately collapse again. The currents generated by vibration literally blast off the dirt particles from the surface. Low ultrasonic frequency removes coarse contamination, high ultrasonic frequency removes fine contamination from the component.
During oscillation or surge flooding, the components are permanently immersed into and removed from the wet medium.
More...Large quantities of liquid are pumped in and out of the washing chamber for this purpose. The optimised medium exchange generated this way directly on the component washes away particles from the surface.
Heating the solvent produces steam, which is fed into the chamber, where it condenses on the cooler surface of the components.
More...The resulting solvent film dissolves contaminations, and also dust or chips, which then flow off the component. The mechanical rinsing effect cleans the surface deeply into the pores.
For particularly closely packed or porous parts, purely atmospheric drying quickly reaches its limits and does not deliver the desired result.
More...The advantage of vacuum drying is that the entire volume is dried in the processing chamber. This efficiently reduces the consumption of solvents, prevents re-contamination or corrosion caused by moisture and the components are immediately ready for further processing.