TECHNOLOGY
Ultrasound and cavitation process
Ultrasound applications are based on the physical phenomenon of cavitation.
Ultrasound consists of sound waves with frequencies above the human hearing range (20–100 kHz). It involves a physical phenomenon that generates millions of microbubbles in a liquid, which implode, releasing extreme energy.
We specialize in the distribution of ultrasonic cavitation equipment for industrial companies.
Energy released through cavitation
EXPANSIVE WAVES
Las burbujas de cavitación al implosionar, liberan ondas de expansión microscópicas que actúan como un microchorro de energía, desprendiendo y arrancando la suciedad adherida incluso en superficies resistentes.
acoustic waves
Ultrasonic waves travel through the liquid as acoustic vibrations that penetrate every corner of the piece, ensuring that cleaning reaches complex geometries and hard-to-reach interiors evenly.
VIBRATION
The constant implosion of millions of bubbles generates an intense vibration at a microscopic level that destabilizes the particles of grease, rust or carbon, facilitating their detachment without damaging the original material.
Results on another scale
Parameters that influence sonication efficiency
- Acoustic frequencies
- Acoustic power
- Temperature
- Time
- Full immersion
- Partial immersion
- Agitation
- Vertical transmission
- Radial transmission
- Sonotrode distribution
- Pressure
- Cleaning fluid characteristics
- Distribution of energy density
- Container contamination
- Biologically active additives
- Oxidising additives
