Magnetic laboratory separator for separation of materials with distinct magnetic properties, enables recovery of ferrous and non-ferrous particles, perfecting separation processes
- Power: 0.3 kW
- Processing capacity: 15 kg
- Weight: 110 kg
- Dimensions: 900x500x1050(h) mm
- Magnetic Drum Diameter: 250 mm
- Magnetic Power: Up to 1,500 Gauss
- Material Input/Output Diameter: 100 mm
*Please note that the information provided in this document is for reference only and is subject to potential change by the manufacturer.
Magnetic separator for laboratory Stokkermill is designed to facilitate the separation of materials with distinct magnetic properties, making it a valuable tool for laboratory and research applications. This versatile machine enables the recovery of ferrous and non-ferrous particles, allowing for the refinement of the most delicate and unique separation processes. The Stokkermill Laboratory Magnetic Separator has applications in a variety of laboratory and research scenarios. Ideal for recovering magnetic particles from a mixture, isolating valuable materials or conducting magnetic susceptibility testing, the device offers the versatility and precision to meet your needs. The Magnetic Laboratory Separator features a 100 mm material inlet and outlet diameter for easy material loading and collection. The Stokkermill Laboratory Magnetic Separator is an indispensable tool for laboratories and research facilities engaged in separating materials based on their magnetic properties. Its adjustable magnetic power, versatility and adaptability make it a valuable tool for achieving efficient and accurate separation.
- Magnetic Power Control: Magnetic power can be finely adjusted, providing the flexibility to separate a wide range of materials with different magnetic susceptibilities.
- Safety Measures: The Magnetic Laboratory Separator is equipped with safety features such as overload protection and emergency switches, ensuring safe and reliable operation.
- Versatile Separation: This device is suitable for separating various materials, including metals, minerals and other substances based on their magnetic properties. It offers a high level of precision in separating materials, enabling efficient and reliable results.