2 atmosphere, have proven almost the total conversion of hematite to iron magnetic phases ([99 wt%). Subsequently, Subsequently, the magnetic separation process has been examined by means of a wet high-intensity magnetic separator, and the analyses

Strong magnetic separation and reverse flotation process ensure the concentrate grade; Application Hematite separation process is suitable for complex structure hematite such as hematite and impurities with uneven distribution of particle size, ore with large content of fine particle, ore with small amount of magnetite and the gangue minerals

Abstrac~A new magnetic separation technique combines high magnetic fields, extreme gradients, and controlled retention time to separate feebly magnetic mineral contaminants from kaolin. Extraction of pyrite, siderite, hematite, iron stained anatase, and mica by magnetic filtration of

hematite floatation separation process - . Before, the flotation and roasting-magnetic separating process are mainly used. For the past few years, due to the application of strong magnetic separator, undersize sieve etc new equipment and gravity separation equipment, reverse flotation process, hematite (week magnetic ore) dressing have got remarkable effect.

Table of ContentsCompare Magnetic Separation MethodsWet High-Intensity Magnetic Separation ResultsMathematical Models to Optimize Magnetic Separator DesignPractical Aspects of Effective Separator DesignBeneficiation of Oxidized Taconites WHIM is the short acronym for Wet High Intensity Magnetic Separation.