Due to the different nature of fluorite mines in different regions, some processing plants use a three-stage one-closed crushing process, and some processing plants use a three-stage open-circuit crushing process. The fluorite ore beneficiation equipment in the crushing and screening stage is shown in the table below.
The two-stage grinding process is usually used in the grinding stage of fluorite mines. When fluorite and other minerals are closely coexisting in fine particles, the first stage grinding usually cannot well separate the monomers of fluorite and associated minerals, so After a period of grinding, coarse grinding of concentrates and re-grinding is a commonly used method in the separation of refractory fluorite ore, which is beneficial to the subsequent stage of separation and improves the selection index.
Scope of application: suitable for high-grade fluorite nuggets and particle mines with a particle size of 6-20mm.Technological characteristics: The gravity beneficiation efficiency is remarkable, the equipment structure is simple, and the operation is convenient. The main fluorite mine beneficiation equipment is a jig, among which the diaphragm jig is commonly used. Diaphragm jigs produced by Xinhai are divided into two types, left-handed machines and right-handed jigs. The upper limit is 6-8mm. It is not only widely used in fluorite ore beneficiation process, but also widely used in the separation of gold, tin, tungsten and other minerals.
1. Separation of fluorite and sulfide oreUsually, yellow medicine is used as a collector to float sulfide ore preferentially, and then flotation of fluorite ore is carried out. The fluorite ore flotation process generally uses fatty acid collectors. In order to achieve a better flotation effect, a small amount of sulfide ore inhibitor can also be added to suppress the residual sulfide ore, so that the grade of fluorite concentrate can be improved.2. Separation of fluorite and bariteThe ore type of a fluorite ore dressing plant is fluorite-barite type, the main minerals are fluorite and barite, and the gangue minerals are quartz and calcite. The specific fluorite ore beneficiation process is as follows: one roughing, one sweeping, and three flotation processes. See the table below for the analysis results of the chemical composition of the original ore.
Studies have shown that the amount of oleic acid required for flotation fluorite, barite, and calcite is different. Floatation fluorite uses the least oleic acid and calcite the most. When the flotation slurry is neutral, the floatability of fluorite and barite is similar. When the slurry pH is greater than 10, only the flotation effect of calcite is better. When the slurry is acidic, the floatability of fluorite is heavier. The spar is good, which can realize the separation of fluorite and barite.
The fluorite beneficiation uses oleic acid as collector, water glass as inhibitor, and flotation under the condition of ore pulp pH of 8.5-9. The pH adjusters are sodium carbonate and sulfuric acid. Sodium carbonate can not only adjust the pH, but also be a softener of hard water, and can also be used to disperse sludge. In the flotation, in order to prevent foaming and stickiness, the amount of sodium carbonate and oleic acid should be added in an appropriate amount. In order to ensure high-quality fluorite concentrate, fluorite and barite concentrate are obtained by the method of inhibiting the barite from floating out of fluorite.3. Separation of fluorite and quartzFatty acid is used as a collecting agent to collect fluorite, and water glass is used as an inhibitor to inhibit quartz. When the amount of water glass is small, the effect of inhibiting quartz is poor, but fluorite can be activated in flotation. If the water glass is excessive, it will inhibit the flotation of fluorite. Therefore, the amount of water glass should be properly controlled. In order to enhance the inhibitory effect of water glass on quartz, certain polyvalent metal ions can be added, which not only inhibits quartz, but also inhibits calcite.