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Method for preparing titanium-rich material from titanium-containing blast furnace slags by virtue of fusion treatment of boric acid

A technology of boric acid melting and blast furnace slag, which is applied in the field of metallurgy, can solve the problems of difficult sorting, large alkali consumption, and high production costs, and achieve the effects of simple process flow, low acid concentration, and low cost

Inactive Publication Date: 2014-06-25
PANZHIHUA UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] (1) Technology of sulfuric acid leaching blast furnace slag to produce titanium dioxide and extract scandium (Chen Qifu, Zhang Yanqiu, Fang Minxian. Research on Panzhihua Iron and Steel Blast Furnace Slag Extraction of Titanium Dioxide and Scandium Trioxide [J]. Iron and Steel Vanadium Titanium, 1991, 12(3) :30-35.), but a certain amount of waste acid inevitably remains in the tailings after titanium extraction by this process, causing secondary pollution
This method consumes a lot of acid, and the production cost is high, causing great pollution to the environment.
[0005] (2) Titanium extraction technology by alkali treatment phase separation (Zhou Zhiming, Zhang Binghuai, Zhu Zizong. Slag and titanium separation test of high titanium type blast furnace slag [J]. Iron and Steel Vanadium Titanium, 1999, 20 (4): 36-38.), the The process consumes a lot of alkali, and the process of recovering sodium salt is complicated and the cost is greatly increased. The enrichment effect of titanium is not ideal. At the same time, alkaline treatment of blast furnace slag at high temperature will cause serious air pollution.
[0006] (3) High temperature carbonization and low temperature chlorination to produce TiCl 4 (Huang Jiaxu, Yang Yangjun, Lu Pingping. Steel, Vanadium and Titanium, 2011, V(32): 12-15), this process is still in the small-scale experimental stage and has not yet been industrialized, mainly because of the following technical bottlenecks: 1. Carbonization process It is not perfect yet, for example, there are problems such as large loss of carbon powder, broken electrodes, and long carbonization time; Second, the research on the chlorination process of carbonized slag is not comprehensive and systematic, such as the problem of low selectivity in low-temperature chlorination, and the overall chlorination equipment The level is not high; 3. How to derive the heat of reaction on large-scale chlorination equipment and how to avoid local overheating and other heat balance issues; 4. The use of chlorination residues has not been solved. "residue mountain", and the relatively stable gravel turns into powder, which increases the harm to the environment
However, due to the different sizes of perovskite grains and the symbiosis of perovskite and spinel, the disintegration effect of the monomer is poor, and the separation is difficult; and the direct use value of perovskite titanium-rich materials is low, and calcium oxide needs to be further removed Other impurities

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0044] (1) Titanium-containing blast furnace slag is taken from the Baguanhe slag field of Sichuan Panzhihua Iron and Steel Group Company, with a batch size of 10 kg. After being dried and ground by a high-energy ball mill, it is sieved by a sieving machine, and the slag with a particle size of less than 100 mesh is used for future use. More than 100 meshes are returned to the ball mill for ball milling, and the mass fraction of titanium dioxide in the blast furnace slag is measured to be 23.2%.

[0045] (2) Take 200g of ball-milled blast furnace slag and 100g of boric acid powder according to the mass ratio of 2:1, put them in a 1000mL ceramic mortar, grind and mix them evenly, then transfer them to a 500mL graphite crucible for later use.

[0046] (3) Set the heating temperature of the box-type electric furnace to 280°C. After the temperature rises to the set temperature, use crucible pliers to put the graphite crucible containing the raw materials into the electric furnace, ...

Embodiment 2

[0051] (1) Titanium-containing blast furnace slag is taken from Sichuan Panzhihua Steel City Group Huanye Company, a batch of 5kg, sieved by a sieving machine, and the slag with a particle size of less than 100 mesh is taken for use, and the slag with a particle size of less than 100 mesh is returned to the ball mill for ball milling. The blast furnace slag has been tested The mass fraction of titanium dioxide is 22.6%.

[0052] (2) According to the mass ratio of 10:4.2, take 260g of ball-milled blast furnace slag and 110g of boric acid powder, put them in a 1000mL ceramic mortar, grind and mix them evenly, and then transfer them to a 500mL graphite crucible for later use.

[0053] (3) Set the heating temperature of the box-type electric furnace to 290°C. After the temperature rises to the set temperature, use the crucible tongs to put the graphite crucible containing the raw materials into the electric furnace, close the furnace door, and take it out after 100 minutes of heat ...

Embodiment 3

[0058] (1) Titanium-containing blast furnace slag is taken from Sichuan Panzhihua Steel City Group Huanye Company, a batch of 5kg, sieved by a sieving machine, and the slag with a particle size of less than 100 mesh is taken for use, and the slag with a particle size of less than 100 mesh is returned to the ball mill for ball milling. The blast furnace slag has been tested The mass fraction of titanium dioxide was 24.2%.

[0059] (2) According to the mass ratio of 10:4.5, take 300g of ball-milled blast furnace slag and 135g of boric acid powder, put them in a 1000mL ceramic mortar, grind and mix them evenly, and then transfer them to a 500mL graphite crucible for later use.

[0060] (3) Set the heating temperature of the box-type electric furnace to 260°C. After the temperature rises to the set temperature, use the crucible tongs to put the graphite crucible containing the raw materials into the electric furnace, close the furnace door, and take it out after 120 minutes of heat...

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Abstract

The invention belongs to the field of metallurgy, and particularly relates to a method for preparing a titanium-rich material from titanium-containing blast furnace slags by virtue of fusion treatment of boric acid. A technical problem to be solved by the invention is to provide a simple, environment-friendly and low-power consumption method for preparing the titanium-rich material from the titanium-containing blast furnace slags as well as the titanium-rich material prepared by the method. For solving the technical problem, a technical scheme adopted by the method comprises the following steps: batching ball-milled blast furnace slags with boric acid, heating to perform a fusion reaction, cooling, crushing, leaching by use of hydrochloric acid, filtering and separating. The titanium-rich material prepared by the preparation method disclosed by the invention contains not less than 60% by mass of TiO2. The preparation method disclosed by the invention has the advantages that the technological process is simple, and high-temperature and high-pressure reactions are not needed; the power consumption is low; the acid used in leaching is low in concentration and low in usage amount, so the process is more environmental friendly; a mixture formed after the crushing is washed with hot water, the hot water after washing is concentrated and crystallized, and boric acid is recycled, so the cost is low.

Description

technical field [0001] The invention belongs to the field of metallurgy, and in particular relates to a method for preparing titanium-rich material by melting treatment of titanium-containing blast furnace slag with boric acid. Background technique [0002] Blast furnace slag is a kind of waste slag discharged from the blast furnace for smelting pig iron, and its composition is different due to different mineral components in different places. Panxi area is rich in vanadium-titanium magnetite, so its blast furnace slag contains about 23-25% TiO2 blast furnace slag. If the blast furnace slag as a secondary resource is not well utilized, it will not only waste the secondary resource but also cause great pollution to the environment, especially the titanium-containing blast furnace slag. Panzhihua Iron and Steel's blast furnace slag contains TiO 2 The high quantity restricts its development and utilization in many aspects. Panzhihua Iron and Steel emits 2-3 million tons of t...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22B7/04C22B34/12
CPCY02P10/20
Inventor 马光强程敏邹敏
Owner PANZHIHUA UNIV
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