Hematite iron ore beneficiation equipment :
For hematite: Due to the high density of hematite relative to silicates, beneficiation usually involves a combination of crushing and milling as well as heavy liquid separation. This is achieved by passing the finely crushed ore over a bath of solution containing betonies or other agent which increases the density of the solution. When the density of the solution is properly calibrated, the hematite will sink and the silicate mineral fragments will float and can be removed.
For magnetite: Design 1: Stage Crushing, Stage Ore Grinding, Gravity Concentration, Magnetic Separation, Anionic reverse flotation;
Design 2: Stage Crushing, Stage Ore Grinding, Gravity Concentration, Magnetic Separation, Acid are flotation.
The flow of the Hematite iron ore beneficiation equipment is as follows:
1. Crushing
2. Grinding
3. Classifying
4. First Stage Magnetic separating
5. Second Stage Magnetic separtating
6. Thickening and Drying
For hematite: Due to the high density of hematite relative to silicates, beneficiation usually involves a combination of crushing and milling as well as heavy liquid separation. This is achieved by passing the finely crushed ore over a bath of solution containing betonies or other agent which increases the density of the solution. When the density of the solution is properly calibrated, the hematite will sink and the silicate mineral fragments will float and can be removed.
For magnetite: Design 1: Stage Crushing, Stage Ore Grinding, Gravity Concentration, Magnetic Separation, Anionic reverse flotation;
Design 2: Stage Crushing, Stage Ore Grinding, Gravity Concentration, Magnetic Separation, Acid are flotation.
The flow of the Hematite iron ore beneficiation equipment is as follows:
1. Crushing
2. Grinding
3. Classifying
4. First Stage Magnetic separating
5. Second Stage Magnetic separtating
6. Thickening and Drying
Certificate
- BV/CE/ISO
Main Products
crushing equipment, grinding equipment, screening equipment