Effect of Particle Size Refinement on the Leaching Behavior of Mixed Rare-Earth Concentrate Using Hydrochloric Acid

The effects of particle size, temperature, and leaching time on the leaching behavior of rare-earth elements were studied. The leaching efficiency of the rare earth reached 39.24% under leaching conditions of hydrochloric acid concentration of 8.00 mol/L, particle size 95% distributed below 1.5 μm, leaching time of 120 min, and temperature of 90 °C. According to the scanning electron microscopy and X-ray diffraction analysis of the residue, the mechanism of the leaching process was also investigated. Actually, the phase of REFCO 3 transformed into that of RECl 3 and REF 3 but there was an existing intermediate transition, where the phase of REFCO 3 on reacting with hydrochloric acid generated that of REO x F 3-2 x and this process also released RE 3+ into the solution. REO x F 3-2 x continued reacting with hydrochloric acid to release a lot of F - , which on combining with RE 3+ formed REF 3 precipitation. The leaching kinetics of rare earths follows a shrinking core model that can be expressed as 1 - 3(1 - x ) 2/3 + 2(1 - x ) = k 1 t . The activation energies are 62.1, 54.8, 35.1, and 34.9 kJ/mol, respectively.