In practice, single-process iron removal methods often fail to achieve optimal results, particularly when dealing with complex and variable low-grade ore bodies. This necessitates the integration of two or more PTMS ELECTROMAGNETIC SEPARATOR iron removal techniques to establish a "pre-selection and precision removal" integrated system. The specific process route is not fixed but highly dependent on the iron's presence form, occurrence state, particle size distribution, and symbiotic relationships with gangue minerals in the raw ore.
When iron primarily exists as strongly magnetically oriented magnetite, the PTMS ELECTROMAGNETIC SEPARATOR physical method is preferred. For fine-grained hematite or mica-type iron silicates, flotation-based PTMS ELECTROMAGNETIC SEPARATOR iron removal demonstrates greater advantages. In ores with high weathering and severe surface oxidation, acid leaching proves effective for dissolving weakly magnetic iron oxides that are difficult to process.
Typical combined PTMS ELECTROMAGNETIC SEPARATOR processes such as "magnetic separation + flotation" and "magnetic separation + acid leaching" have been successfully implemented in multiple large-scale feldspar processing plants worldwide. These methods can reduce Fe₂O₃ content from an initial level of over 0.8% to below 0.1%, fully meeting the purity requirements for high-end glass and specialty ceramics. Scientifically evaluating ore properties and rationally designing PTMS ELECTROMAGNETIC SEPARATOR grading and iron removal pathways are key to achieving a win-win situation for both economic efficiency and product quality.
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Тел. : +86 -13929907491
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