Fluoride-free low-nitrogen-sulfur ferro-molybdenum smelting raw material, ferro-molybdenum green smelting system and ferro-molybdenum green smelting method

A raw material, ferromolybdenum technology, applied in the green smelting system of ferromolybdenum and the field of green smelting of ferromolybdenum, can solve problems such as environmental pollution and nitrogen dioxide emission, and achieve the effect of reducing labor intensity and improving the working environment of employees

Active Publication Date: 2020-10-13
日照瑞华新材料科技有限公司 +2
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The object of the present invention is to provide a fluorine-free, low-nitrogen and sulfur ferromolybdenum smelting raw material, a ferromolybdenum green smelting system and a ferromolybdenum green smelting method, and solve the problems in the prior art by designing a fluorine-free, low nitrogen and sulfur ferromolybdenum smelting raw material. The existing ferromolybdenum smelting more or less uses saltpeter as a heating agent, and a certain amount of nitrogen dioxide gas is produced after the saltpetre reaction. In addition, the environmental protection equipment is not in place, which will cause a certain amount of nitrogen dioxide to be emitted to the air, causing environmental pollution

Method used

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  • Fluoride-free low-nitrogen-sulfur ferro-molybdenum smelting raw material, ferro-molybdenum green smelting system and ferro-molybdenum green smelting method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0044] Preparation of sample one:

[0045] 101) The raw materials in each raw material bin are transported to the second electromagnetic vibrating feeder 103 by the screw conveyor 102 respectively, and each second electromagnetic vibrating feeder 103 transports each raw material to the corresponding weighing bin 104, each weighing After the heavy silo 104 accurately weighs the raw materials, the weighed raw materials are transported to the In the multiple silo 3, 4.5 tons of molybdenum oxide, 0.32 tons of raw stone, 1.58 tons of iron and phosphorus, 0.9 tons of metal silicon powder, 0.24 tons of aluminum particles, 0.9 tons of steel scrap and 200g of magnesium strips are put into the multiple silo After 3 minutes, enter the mixer 5 through the first electromagnetic vibrating feeder 4, and mix the materials for 15 minutes to obtain the mixture;

[0046] 102) Fix the smelting furnace 9 on the electronic double-drive rail flatbed truck 12 through the sand base plate 11, move the...

Embodiment 2

[0059] Preparation of sample two:

[0060] 201) The raw materials in each raw material bin are transported to the second electromagnetic vibrating feeder 103 through the screw conveyor 102, and each second electromagnetic vibrating feeder 103 transports each raw material to the corresponding weighing bin 104, each weighing After the heavy silo 104 accurately weighs the raw materials, the weighed raw materials are transported to the In the multiple silo 3, 4.0 tons of molybdenum oxide, 0.28 tons of quicklime, 1.54 tons of iron and phosphorus, 0.55 tons of metal silicon powder, 0.2 tons of aluminum particles, 0.9 tons of steel shavings and 170 g of magnesium strips are put into the multiple silo. After 3 minutes, enter the mixer 5 through the first electromagnetic vibrating feeder 4, and mix the materials for 20 minutes to obtain the mixture;

[0061] 202) Fix the smelting furnace 9 on the electronic double-drive track flatbed car 12 through the sand base plate 11, move the ele...

Embodiment 3

[0072] Preparation of sample three:

[0073] 301) The raw materials in each raw material bin are transported to the second electromagnetic vibrating feeder 103 through the screw conveyor 102, and each second electromagnetic vibrating feeder 103 transports each raw material to the corresponding weighing bin 104, each weighing After the heavy silo 104 accurately weighs the raw materials, the weighed raw materials are transported to the In the double silo 3, 4.0 tons of molybdenum oxide, 0.4 tons of quicklime, 2 tons of iron and phosphorus, 1.2 tons of metal silicon powder, 0.4 tons of aluminum particles, 0.9 tons of steel shavings and 250g of magnesium strips are put into the double silo. After 3 minutes, enter the mixer 5 through the first electromagnetic vibrating feeder 4, and mix the materials for 20 minutes to obtain the mixture;

[0074]302) Fix the smelting furnace 9 on the electronic double-drive rail flatbed car 12 through the sand base plate 11, move the electronic do...

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Abstract

The invention relates to the technical field of ferromolybdenum smelting, in particular to a fluoride-free low-nitrogen-sulfur ferromolybdenum smelting raw material, a ferromolybdenum green smelting system and a ferromolybdenum green smelting method. The method discloses a high-temperature-resistant magnesium alloy which comprises 4-5 parts of molybdenum oxide, 0.2-0.4 part of quick lime, 1.2-2 parts of iron phosphorus, 0.5-1.2 parts of metal silicon powder, 0.2-0.4 part of aluminum particles, 0.4-0.9 part of steel scraps and 0.05 * 10 <-3 >-0.25 * 10 <-3 > parts of magnesium bars. Through thedesign of the fluoride-free low-nitrogen-sulfur ferromolybdenum smelting raw material, the problems that in the prior art, in current ferromolybdenum smelting, more or less nitratine is used as a heat supplementing agent, a certain amount of nitrogen dioxide gas is generated after the nitratine reaction, environment-friendly equipment is not in place, a certain amount of nitrogen dioxide is discharged into air, and the environment is polluted are solved; and meanwhile, in order to improve the fluidity of slag in traditional smelting, fluorite can be used, and calcium fluoride in the fluoritecan pollute the environment to a certain extent as well.

Description

technical field [0001] The invention relates to the technical field of ferromolybdenum smelting, in particular to a fluorine-free, low-nitrogen and sulfur ferromolybdenum smelting raw material, a ferromolybdenum green smelting system and a ferromolybdenum green smelting method. Background technique [0002] At present, ferromolybdenum smelting uses more or less saltpeter as a heating agent. After the reaction of saltpeter, a certain amount of nitrogen dioxide gas is produced. In addition, environmental protection equipment is not in place, which will cause a certain amount of nitrogen dioxide to be emitted into the air. , causing environmental pollution. At the same time, traditional smelting uses fluorite to improve the fluidity of slag, and the calcium fluoride in fluorite will also cause certain pollution to the environment. [0003] In addition, the materials required for ferromolybdenum smelting are relatively fine and dry, and a certain amount of dust will be generate...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22B34/34C21B11/00
CPCC21B11/00C22B34/34
Inventor 徐业兴郭钰龙汪正峰郝不景胡俊岩李红霞戚静刘振国孙肖肖
Owner 日照瑞华新材料科技有限公司
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