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Jaw Crusher

As a classic primary crusher with stable performances, Jaw Crusher is widely used to crush metallic and non-metallic ores as well as building aggregates or to make artificial sand.

Input Size: 0-1020mm
Capacity: 45-800TPH

Materials:
Granite, marble, basalt, limestone, quartz, pebble, copper ore, iron ore

Application:
Jaw crusher is widely used in various materials processing of mining &construction industries, such as it is suit for crushing granite, marble, basalt, limestone, quartz, cobble, iron ore, copper ore, and some other mineral &rocks.

Features:
1. Simple structure, easy maintenance;
2. Stable performance, high capacity;
3. Even final particles and high crushing ratio;
4. Adopt advanced manufacturing technique and high-end materials;

Technical Specs

low intensity ilmenite

Ilmenite an overview ScienceDirect Topics

In the present processing flowsheet, the ore is first processed with wet low-intensity drum magnetic separator to concentrate strongly magnetic vanadic titano-magnetite, with its tailings classified into coarse and fine fractions; and then the ilmenite is respectively recovered from the two fractions, by high-gradient magnetic separation-reverse flotation flowsheet.

Characterization and Pre-Concentration of Low-Grade

Although ilmenite is a weakly magnetic mineral, it has a slightly stronger susceptibility compared with other gangue minerals, which are more likely to be pre-concentrated by a wet high-intensity magnetic separation process from low-intensity magnetic separation tailing.

Ilmenite for pigment and metal production

Low-grade ilmenite can be leached with concentrated HCl at atmospheric pressure and at 80 o C. After filtration to separate insoluble matter the solution containing TiO 2+ and Fe 2+ is heated to precipitate titanium hydroxide and recover HCl.

Characterization and Pre-Concentration of Low-Grade

2017-8-4  by low-intensity magnetic separation, and then recover ilmenite from its tailing [11]. The separation technology of ilmenite includes gravity separation, magnetic separation, flotation and electrostatic separation [12,13]. Although the separation effects of

Kinetics of chromite vs. ilmenite magnetization during

2009-8-26  low intensity magnetic separation. An ilmenite concentrate is produced from the heavy minerals concentrate by wet high intensity magnetic separation7. Nell and Den Hoed6 found that the bulk of the chromium in the ilmenite concentrate is present in spinel of Kinetics of chromite vs. ilmenite magnetization during oxidative roasting of ilmenite concentrates

Separation Test of Ilmenite in Yunnan Scientific.Net

Because of the low ilmenite grade and fine dissemination size, a lot of low-magnetic flaky phlogopite in the run-of-mine ore and it can not effectively remove the phlogopite by the high gradient magnetic separation, so it is very difficult to sorting.

Magnetic properties of ilmenite, hematite and oilsand

Ilmenite, hematite, and a rutile concentrate (LR Rutile) produced from the oil sands tailings (containing mainly leucoxene and rutile), were used in the study. It was observed that the magnetic susceptibility of ilmenite increased after either oxidation or reduction roasting at

The role of hematite–ilmenite solid solution in the

2007-8-13  significantly to the remanence intensity. Throughout this report, the terms hemo-ilmenite and ilmeno-hematite are adopted for unmixed grains that are rich in ilmenite and hematite content, respectively. In addition, titanohematite and ferrian ilmenite

Reading Magnetic Separators Mineral Technologies

2017-10-5  with one or two re-treat stages and an optional low intensity drum scalper for removal of highly magnetically susceptible minerals. Applications Production of ilmenite concentrate based on Ti0 2 / Fe 2 O 3 ratios Upgrading staurolite and garnet into magnetics and production of zircon into non-magnetics Production of silica / glass sands

Heavy Mineral Processing at Richards Bay Minerals

2009-8-26  The grade of ilmenite produced at RBM is of too low a grade to be used directly in the production of pigment or synthetic rutile. The TiO2 content is increased by smelting the ilmenite with anthracite to produce a slag containing approximately 85 per cent titanium dioxide and a high-purity (low-manganese) pig iron as a co-product.5

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