Magnetic Drum Separator for Mineral Processing
This magnetic separator is widely used in resource recycling, mining, and chemical industries. It is suitable for separating materials such as magnetite and ilmenite with granularity below 3mm.
Technical Specifications
Overview
High-Efficiency Magnetic Separation
The Magnetic Drum Separator is a high-versatility machine designed for the ore beneficiation industry, specifically for separating materials like magnetite, pyrrhotite, and ilmenite. It excels in resource recycling, mining, and chemical processing by efficiently removing iron powder from various materials. With a stable and strong magnetic field, this wet magnetic separator ensures reliable performance in demanding industrial environments.
- Primary Applications
- MiningResource RecyclingTimberCeramicsChemicalsFood Industry
Technical Features
Key Features
- High magnetic field strength
- Large wrap angle of the magnetic system
- Stable magnetic field performance
- Suitable for materials with granularity below 3mm
Compatible Materials
Model Specifications
CTB1018 Performance Metrics
Technical Data Comparison
| Model | Shell Diameter (mm) | Shell Length (mm) | Rotation Speed (r/min) | Feeding Size (mm) | Capacity (t/h) | Power (kw) |
|---|---|---|---|---|---|---|
| CTB6012 | 600 | 1,200 | <35 | 2-0 | 10-20 | 1.5 |
| CTB6018 | 600 | 1,800 | <35 | 2-0 | 15-30 | 2.2 |
| CTB7518 | 750 | 1,800 | <35 | 2-0 | 20-45 | 2.2 |
| CTB9018 | 900 | 1,800 | <35 | 3-0 | 40-60 | 3 |
| CTB9021 | 900 | 2,100 | <35 | 3-0 | 45-60 | 3 |
| CTB9024 | 900 | 2,400 | <28 | 3-0 | 45-70 | 4 |
| CTB1018 | 1,050 | 1,800 | <20 | 3-0 | 50-75 | 5.5 |
| CTB1021 | 1,050 | 2,100 | <20 | 3-0 | 50-100 | 5.5 |
| CTB1024 | 1,050 | 2,400 | <20 | 3-0 | 60-120 | 5.5 |
| CTB1218 | 1,200 | 1,800 | <18 | 3-0 | 80-140 | 5.5 |
| CTB1224 | 1,200 | 2,400 | <18 | 3-0 | 85-180 | 7.5 |
| CTB1230 | 1,200 | 3,000 | <18 | 3-0 | 100-180 | 7.5 |
| CTB1530 | 1,500 | 3,000 | <14 | 3-0 | 170-280 | 11 |
Operation
Magnetic Separation Process
The pulp flows into the cell body where magnetic ore particles form chains under the influence of the magnetic field and are absorbed onto the rotating cylinder. As the cylinder rotates, alternating polarities cause magnetic mixing, allowing non-magnetic gangue to split away. Finally, the concentrated magnetic material is discharged into a chute via water flow or a brush roll at the point where the magnetic field is weakest.
