Grant Instruments XUB12 Digital Ultrasonic Bath, 12.5 Litres Capacity, 120 or 230V
Specifications
• = standard
Dimensions (h x d x w) | 365 x 330 x 342mm |
Working capacity | 12.5L |
Max capacity | 14L |
Temperature range | Ambient +5 to 70°C |
Ultrasonic power | 200W |
Ultrasonic power (per litre) | 16W |
Operating frequency | 32-38KHz |
Frequency LEAP | • |
Heated | • |
Digital LCD controls | • |
SD port with SD card | • |
Timer | 0-99 minutes |
Drain outlet BSP valve | 3/8'' |
Heater power - 230V | 300W |
Heater power - 120V | 365W |
Supply voltage | 120 or 230V |
Weight | 10.5kg |
The XUB range of digitally controlled benchtop ultrasonic baths offer consistent and reliable performance in a variety of environments. Incorporating Frequency LEAP technology to ensure uniform levels of ultrasonic activity throughout the fluid, these baths offer high performance giving an accurate and precise ultrasonic process.
- Temperature range ambient +5ºC to 70ºC
- Frequency LEAP technology provides more homogeneous ultrasonic activity throughout the tank, reducing dead spots and standing waves
- Accurate process control of time, temperature, ultrasonic activity, degas and power
- Modern, sleek design with stainless steel basket, ABS plastic lid, M2 ultrasonic cleaning solution, SD card and drain tap included as standard
- Degassing function to remove small bubbles from liquid, reducing the overall time needed for ultrasonic operation
- A choice of 5 sizes
- Adjustable power that can be reduced from 100 to 50% in 5% increments
Applications
- Healthcare/clinical – the first stage of the decontamination process for reusable surgical instruments in dental, podiatry and general practice settings
- General use – glass, equipment, component cleaning, sonication of cytometer nozzles, dispersion and solubulisation
- Laboratories – cleaning of components, degassing fluids, mixing fluids and compounds, cell disruption, fluid dissolution
- Industrial – light manufacturing
- HPLC – degassing of solvents pre analyses
- Biopharm – dissolution of samples