Our Ultrasonic Cleaners are high-performance decontamination units engineered to provide superior precision cleaning through advanced acoustic cavitation technology. These cleaners emit high-frequency sound waves that create microscopic vacuum bubbles in the cleaning solution; upon implosion, these bubbles release immense energy that effectively removes grease, oils, flux, and carbon deposits from the most intricate surfaces. Built with industrial-grade SUS304 stainless steel tanks, high-power transducers, and digital control systems, our cleaners are designed for rigorous laboratory and industrial use. Featuring adjustable heating, digital timers, and specialized degas functions, these machines ensure that even the most complex geometries—such as blind holes, internal threads, and delicate electronic components—are cleaned with 100% efficiency without any mechanical damage to the substrate.
The significance of an Ultrasonic Cleaner lies in its ability to achieve "surgical-grade" cleanliness at a microscopic level. It replaces labor-intensive manual scrubbing and hazardous chemical dipping with a safe, automated, and non-destructive process. In high-precision sectors like aerospace, medical diagnostics, and semiconductor manufacturing, the absolute removal of sub-micron particles is non-negotiable; our ultrasonic technology provides the consistent repeatability and reliability required to meet these stringent safety and quality standards.
These cleaners are extensively applied in the Medical & Dental fields for pre-sterilization of surgical tools. In the Automotive & Aviation industry, they are used for cleaning fuel injectors and engine valves. The Jewelry sector utilizes them for restorative cleaning of precious metals, while the Electronics industry relies on them for removing flux from PCB assemblies. They are also vital in Horology for delicate watch movement cleaning and in the Optical industry for lenses and frames.
Beyond general cleaning, the instrument is utilized for degassing HPLC solvents to prevent baseline noise. It is used in chemical labs to accelerate the dissolution of solutes and to facilitate the homogenization of immiscible liquids. It is also an essential tool for cleaning complex lab glassware like volumetric flasks, pipettes, and sintered glass filters where manual cleaning is impossible.
USA, UK, Germany, UAE, Australia, Canada, Singapore, Saudi Arabia, France, Japan, South Africa, Russia, Brazil, Malaysia, Vietnam, Thailand, Kenya, Nigeria, Egypt, Italy, Spain, Mexico, Turkey, Indonesia, Philippines, South Korea, Iraq, Oman, Kuwait, Qatar, Israel, Norway, Sweden, Switzerland, Poland, Netherlands, Austria, Greece.
Maharashtra (Mumbai, Pune, Nagpur), Gujarat (Ahmedabad, Surat, Vadodara), Delhi NCR, Tamil Nadu (Chennai, Coimbatore), Karnataka (Bangalore), West Bengal (Kolkata), Punjab (Ludhiana), Haryana (Ambala, Gurgaon, Faridabad), Uttar Pradesh (Lucknow, Kanpur), Rajasthan (Jaipur), Telangana (Hyderabad), Kerala, Bihar, Odisha, Madhya Pradesh (Indore), Chhattisgarh, Goa, Jharkhand, Sikkim, Himachal (Baddi).
While plain water can be used, specialized ultrasonic detergents or mild soap solutions are recommended to enhance cavitation efficiency and break down oils or grease more effectively.
Most metals, glass, and hard plastics are perfectly safe. However, soft gemstones like opals or pearls and some delicate electronic coatings should be checked for ultrasonic compatibility before cleaning.
Heating the solution (typically to 50°C-65°C) reduces surface tension and softens contaminants like grease and waxes, allowing the cavitation bubbles to scrub more effectively.
The Degas mode removes trapped air from the liquid. Excess air in the solution can absorb ultrasonic energy and cushion the cavitation bubbles, reducing cleaning power.
