S 25 KV - 25 G dispersion tool for precise and efficient dispersion
The IKA S 25 KV - 25 G dispersion tool is a state-of-the-art solution for laboratories requiring precise and efficient dispersion. Designed specifically for use with the T 25 digital ULTRA-TURRAX® disperser, this accessory can process volumes from 50 to 2000 ml, covering a wide range of applications from basic research to small-scale industrial processes.
The design of this tool incorporates a 25 mm diameter stator and a 17 mm rotor, with a 0.5 mm gap between the two, ensuring fine and homogeneous dispersion. This configuration allows for ultimate fineness of 15 to 50 µm for suspensions and 1 to 10 µm for emulsions, meeting the requirements of the most delicate applications.
Manufactured from high-quality materials such as AISI 316L stainless steel, silicon carbide (SIC) and FFPM, the tool offers excellent resistance to corrosion and aggressive chemicals. It is also suitable for a wide pH range, from 2 to 13, and can operate at temperatures up to 220 °C, making it ideal for a variety of environments and working conditions.
The IKA S 25 KV - 25 G dispersion tool is designed for immersion depths of 40 to 225 mm, with a shaft length of 270 mm, offering maximum flexibility for different laboratory setups. Its ability to operate at speeds of up to 25,000 rpm, with a maximum circumferential speed of 22.2 m/s, ensures optimum performance for fast and efficient processes.
In terms of sterilisation, the tool is compatible with all methods, including wet chemical sterilisation, ensuring perfect hygiene for sensitive applications. It can also operate under vacuum down to 1 mbar and withstand a maximum pressure of 6 bar, offering great versatility for various processes.
Weighing just 0.6 kg, the tool is easy to handle and install, while offering exceptional robustness and durability. Its ergonomic design and compatibility with the ULTRA-TURRAX® system make it the preferred choice for professionals seeking efficiency, precision and reliability in their dispersion processes.