Mineral separation process of magnetic iron ore

A beneficiation method and magnetite technology, which are applied in chemical instruments and methods, magnetic separation, solid separation, etc., can solve the problems of increasing beneficiation cost, high energy consumption, and untimely subdivision of ore materials, and achieve added value of products. The effect of increasing, improving processing power, and reducing energy consumption

Active Publication Date: 2009-07-15
安徽大昌矿业集团有限公司
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AI Technical Summary

Problems solved by technology

In this mineral processing method, the magnetite enters the next process in turn, and the mineral material is not subdivided in time, resulting in high energy consumption and increased mineral processing costs.

Method used

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Embodiment Construction

[0023] A beneficiation method for pure magnetite. The raw ore undergoes primary crushing, first-stage dry magnetic separation, medium crushing, two-pole dry magnetic separation, fine crushing, three-stage dry magnetic separation, and three-stage dry magnetic separation. After a large amount of gangue is thrown out, powder ore is obtained, and the powder ore is sent to the grinding head sieve for screening, and the fine particles under the grinding head sieve enter a stage of magnetic separation process, and the coarse material under the grinding head sieve is subjected to a stage of ball milling, and then enters a stage of In the magnetic separation process, the ore after the first-stage magnetic separation is discharged from the tailings, and then enters the second-stage ball mill until the particle size of the mineral fine powder is guaranteed to be -200 mesh ≥ 60%. The fine powder after the second-stage ball mill enters the second-stage magnetic separation, and the second-sta...

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Abstract

The invention discloses a beneficiation method for a pure magnetic iron ore. A crude ore is sequentially treated according to the steps such as first crushing, first-stage dry-type magnetic dressing, medium crushing, second-stage dry-type magnetic dressing, fine crushing and third-stage dry-type magnetic dressing, fine ore is obtained after a great amount of gangues are thrown by the third-stage dry-type magnetic dressing and sent to a grinding head sieve to be griddled and separated, granules griddled by the grinding head sieve are treated in a first-section magnetic dressing process, rough ore griddled by the grinding head sieve is treated in a first-section ball grinding and then enters the first-section magnetic dressing process; ore aggregates obtained from the first-section magnetic dressing process are treated in a second-section ball grinding after discharging gangue sands till the granularity of ore powder is -200meshes being more than or equal to 60 percent, ore powder generated from the second-section ball grinder are treated in second-section magnetic dressing, ore aggregates generated from the second-section magnetic dressing are treated in a high-frequency sieve after discharging gangue sands, products positioned on the high-frequency sieve are filtered to obtain ore concentrate, and products positioned below the high-frequency sieve are treated with desliming and then treated with floatation. The invention adopts two sections of grinding ore open-way processes and distinguishes the ore aggregates during the ore dressing process, thereby greatly reducing the energy consumption of a system, lowering the production cost and enhancing the utility ratio of equipment.

Description

technical field [0001] The invention belongs to ore dressing technology, in particular to a magnetite ore beneficiation method. Background technique [0002] In the prior art, in the mineral processing method of magnetite, the raw ore undergoes primary crushing, primary dry magnetic separation, medium crushing, secondary dry magnetic separation, fine crushing, and third dry magnetic separation. A large amount of gangue is thrown out by magnetic separation to obtain fine ore, which is sent to the grinding head sieve for sieving, and then goes through the steps of one-stage magnetic separation, one-stage ball milling, two-stage magnetic separation, two-stage ball milling, sieving, and flotation. In this mineral processing method, the magnetite enters the next process in turn, and the mineral material is not subdivided in time, resulting in large energy consumption and increased the cost of mineral processing. Contents of the invention [0003] The purpose of the present inv...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B03C1/00B02C17/00B07B1/00
Inventor 柴延森王志良吉少清
Owner 安徽大昌矿业集团有限公司
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