Mineral processing process capable of producing high-end chemical-stage chromite concentrates

A technology of chromite ore and concentrate, which is applied in the field of beneficiation and recovery of high-grade chromite ore, can solve the problems of interference with magnetic separation and shaking table separation effects, large differences in physical properties, and low chromite content. Improve ore separation efficiency, simple process, and high recovery rate of concentrate

Inactive Publication Date: 2018-09-28
INST OF MULTIPURPOSE UTILIZATION OF MINERAL RESOURCES CHINESE ACAD OF GEOLOGICAL SCI +1
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Problems solved by technology

Combined beneficiation has a relatively mature beneficiation process, which may select a variety of concentrates, and the beneficiation effect is better; but the whole process has many process steps, the operation is cumbersome, and the addition of flotation reagents leads to wastewater discharge. In order to simplify the beneficiation process As well as reducing the discharge of polluting wastewater, adopting an efficient single physical beneficiation process is the goal of the future b

Method used

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  • Mineral processing process capable of producing high-end chemical-stage chromite concentrates

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] The ore sample is a chromite ore in Xinjiang, the original ore Cr 2 o 3 The content is 32.55%, SiO 2 The content is 12.63%. The technical mineralogy research shows that the chromium minerals in the ore are mainly chromite and a small amount of chromium-rich spinel; the gangue minerals are mainly talc, followed by serpentine and carbonate minerals. For this ore, use such as figure 1 The process flow shown is selected, and the specific process parameters are as follows:

[0028] a. After rough grinding the raw ore with a rod mill, the mineral particle size in the pulp is -0.074mm, and the mass fraction is 65%;

[0029] b. When the strong magnetic tail is thrown, the magnetic separation intensity is 1.1T, the stroke is 23mm, and the stroke frequency is 300 times / min;

[0030] c. After the coarse concentrate obtained after strong magnetic tailings is finely ground by the Isa mill, the mineral particle size in the slurry is -0.045mm, and the mass fraction is 85%, of whic...

Embodiment 2

[0035] The ore sample is a chromite ore in Tibet, the original ore Cr 2 o 3 The content is 30.12%, SiO 2 The content is 13.88%. The technical mineralogy research shows that the chromium minerals in the ore are mainly aluminum chromite and a small amount of chromium-rich spinel; the gangue minerals are mainly serpentine, followed by forsterite and carbonate minerals. For this ore, use such as figure 1 The process flow shown is selected, and the specific process parameters are as follows:

[0036] a. After rough grinding the raw ore with a rod mill, the mineral particle size in the pulp is -0.074mm, and the mass fraction is 60%;

[0037] b. When the strong magnetic tail is thrown, the magnetic separation intensity is 1.4T, the stroke is 26mm, and the stroke frequency is 300 times / min;

[0038] c. After the coarse concentrate obtained after strong magnetic tailings is finely ground by the Isa mill, the mineral particle size in the slurry is -0.045mm, and the mass fraction is ...

Embodiment 3

[0043] The ore sample is a chromite ore in Tibet, the original ore Cr 2 o 3 The content is 43.60%, SiO 2 The content is 9.20%. The process mineralogy research shows that the chromium minerals in the ore are mainly aluminum chromite, followed by chromite and a small amount of chromium-rich spinel; the gangue minerals are mainly forsterite, followed by serpentine , a small amount of chlorite and quartz. For this ore, use such as figure 1 The process flow shown is selected, and the specific process parameters are as follows:

[0044] a. After rough grinding the raw ore with a rod mill, the mineral particle size in the slurry is -0.074mm, and the mass fraction is 58%;

[0045] b. When the strong magnetic tail is thrown, the magnetic separation intensity is 1.2T, the stroke is 18mm, and the stroke frequency is 240 times / min;

[0046] c. After the coarse concentrate obtained after strong magnetic tailings is finely ground by the Isa mill, the mineral particle size in the pulp i...

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Abstract

The invention discloses a mineral processing process capable of producing high-end chemical-stage chromite concentrates. The process uses a method of combining the magnetic reconnection process with the stage-grinding and stage-concentration to achieve sorting of the high-grade chromite, and the process comprises following steps that a, raw ore is subject to rough grinding through a rod mill, andstrong magnetic tailings discharging is carried out; b, the mass concentration of strong magnet rough concentrate ore pulp is concentrated to 50% to 60%; c, the concentrated ore pulp is subject to fine milling through an ISA mill, and two-time strong magnetic selection is carried out; d, high magnetic concentrates and middlings are subject to repeated grading through a yunnan tin table concentrator, and a final product is obtained. The high-quality chromite concentrates with the Cr2O3 content larger than or equal to 60% and the impurity SiO2 content smaller than or equal to 1.5% and capable ofmeeting the high-end chemical industrial chromium compound producing needs are obtained, the chromite recycling rate is ensured, the process flow is simple, the production cost is low, a chemical flotation agent does not need to be added, the pollution to the environment is small, the higher economic benefits and social benefits are achieved, and the process is worth of applying and popularizing.

Description

technical field [0001] The invention belongs to the technical field of mineral processing, and in particular relates to a mineral processing process for producing high-end chemical grade chromite concentrate, especially suitable for Cr in chromite ore. 2 o 3 Mineral processing and recovery of high-grade chromite ore with content ≥30%. Background technique [0002] Chromium is an important metal in modern industry. It has a wide range of uses, mainly in metallurgy, refractory materials and chemical industry. In the metallurgical industry, chromite is mainly used to produce ferrochrome alloy and metal chromium; in refractory materials, chromite is used to make chrome bricks, chrome magnesia bricks and other special refractory materials; in the chemical industry, chromite is mainly used To produce sodium dichromate, and then produce other chromium compounds. [0003] At present, the beneficiation process of chromite ore at home and abroad mainly adopts single gravity separat...

Claims

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Application Information

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IPC IPC(8): B03B7/00B03B9/00
CPCB03B7/00B03B9/00
Inventor 邓伟拉巴江村王昌良廖祥文陈炳炎吴启坤格平格达达瓦
Owner INST OF MULTIPURPOSE UTILIZATION OF MINERAL RESOURCES CHINESE ACAD OF GEOLOGICAL SCI
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