Application of magnetic susceptibility gradients to magnetic separation

Abstract

Particle separation in a magnetic colloidal fluid with a susceptibility gradient created by means of a Frantz‐Isodynamic magnet is described. The positions where particles and fluid are in equilibrium are a function of the particle magnetic susceptibility only. This method allows magnetic separation of several materials with a wide range of magnetic susceptibilities in a single separator with multiple dividers. A model separator was constructed. The magnetic gradient of the Frantz magnet and the concentration gradient of the magnetic colloids were calibrated. Separations were carried out using fine particles of Mn₂P₂O₇, CuO, and Al₂O₃. The results confirm the feasibility of this method. The experimental data agree quite well with calculations based on the calibrated concentration gradient.