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Electrolytic manganese anode plate grid and manufacturing method thereof

A manufacturing method and anode plate technology, applied in the direction of electrodes, electrolysis process, electrolysis components, etc., can solve the problems of short life of the anode plate, easy breakage of conductive beams, high slag output, etc., achieve long service life, reduce production energy consumption, Effect of improving corrosion resistance and electrical conductivity

Pending Publication Date: 2020-09-15
宁夏天元锰材料研究院(有限公司)
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] In the production process of electrolytic manganese, the anode plate is the main consumable part; the traditional anode plate is mostly made of lead, silver, tin, antimony, and arsenic five-element alloy, but it is easy to be corroded during use, which makes the transition of the conductive beam The row is easy to break and the amount of slag is high, which eventually leads to a short life of the anode plate and high power consumption during the production process

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0017] An electrolytic manganese anode plate grid, comprising the following raw materials in mass fraction: 2.5% tin, 1% antimony, 1.5% lanthanum, 1.5% cerium, 2% sodium, 2% boron, and lead as the balance.

[0018] The manufacturing method of the electrolytic manganese anode plate grid comprises the following steps:

[0019] a. Add lead into the melting furnace. When the temperature of the lead melt reaches 350-370°C, add antimony and tin and stir evenly;

[0020] b. Continue to heat up. When the temperature of the melt reaches 480-520°C, add boron and sodium and stir evenly, and keep warm for 3-10 minutes;

[0021] c. Continue to heat up. When the temperature of the melt reaches 500-550°C, add lanthanum and cerium and stir evenly, and keep warm for 3-10 minutes;

[0022] d. After stirring and slag removal, cast and hot-roll it into a billet with a thickness of 18-30mm, and then roll the strip to 8mm through three to five consecutive cold-rolling times, and then use knurling ...

Embodiment 2

[0025] An electrolytic manganese anode plate grid, comprising the following raw materials in mass fractions: 2% tin, 0.5% antimony, 0.08% lanthanum, 0.08% cerium, 1% boron, 1% sodium, and lead as the balance.

[0026] The manufacturing method of the electrolytic manganese anode plate grid comprises the following steps:

[0027] a. Add lead into the melting furnace. When the temperature of the lead melt reaches 350-370°C, add antimony and tin and stir evenly;

[0028] b. Continue to heat up. When the temperature of the melt reaches 480-520°C, add boron and sodium and stir evenly, and keep warm for 3-10 minutes;

[0029] c. Continue to heat up. When the temperature of the melt reaches 500-550°C, add lanthanum and cerium and stir evenly, and keep warm for 3-10 minutes;

[0030] d. After stirring and slag removal, cast and hot-roll it into a billet with a thickness of 18-30mm, and then roll the strip to 8mm through three to five consecutive cold-rolling times, and then use knurli...

Embodiment 3

[0033] An electrolytic manganese anode plate grid, comprising the following raw materials in mass fraction: 1.5% tin, 0.3% antimony, 0.05% lanthanum, 0.05% cerium, 0.05% boron, 0.05% sodium, and lead as the balance.

[0034] The manufacturing method of the electrolytic manganese anode plate grid comprises the following steps:

[0035] a. Add lead into the melting furnace. When the temperature of the lead melt reaches 350-370°C, add antimony and tin and stir evenly;

[0036] b. Continue to heat up. When the temperature of the melt reaches 480-520°C, add boron and sodium and stir evenly, and keep warm for 3-10 minutes;

[0037] c. Continue to heat up. When the temperature of the melt reaches 500-550°C, add lanthanum and cerium and stir evenly, and keep warm for 3-10 minutes;

[0038] d. After stirring and slag removal, cast and hot-roll it into a billet with a thickness of 18-30mm, and then roll the strip to 8mm through three to five consecutive cold-rolling times, and then use...

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Abstract

The invention belongs to the technical field of metallurgy, and relates to an electrolytic manganese anode plate grid and a manufacturing method thereof. The electrolytic manganese anode grid comprises raw materials with the following mass fractions: 1.5% to 3.0% of tin, 0.3% to 1% of stibium, 0.05% to 1.5% of lanthanum, 0.05% to 1.5% of cerium, 0.05% to 2% of sodium, 0.05% to 2% of boron and thebalance of lead. According to the electrolytic manganese anode plate grid provided by the invention, by adding boron and sodium as well as lanthanum and cerium and by the cooperation with a smelting and casting process, the obtained anode plate grid is longer in service life, lower in resistance and lower in power consumption and can bring good economic benefits for an enterprise.

Description

technical field [0001] The invention belongs to the technical field of metallurgy, and relates to an electrolytic manganese anode plate grid and a manufacturing method thereof. Background technique [0002] In the production process of electrolytic manganese, the anode plate is the main consumable part; the traditional anode plate is mostly made of lead, silver, tin, antimony, and arsenic five-element alloy, but it is easy to be corroded during use, which makes the transition of the conductive beam The row is easy to break and the amount of slag is high, which eventually leads to a short life of the anode plate and high power consumption during the production process. Contents of the invention [0003] The purpose of the present invention is to provide an electrolytic manganese anode plate grid, which can effectively prolong the service life of the grid, reduce the resistance of the anode plate, and reduce the power consumption of production. [0004] The purpose of the p...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B21B1/46B21B15/00B21C37/02C25C7/02C22C11/06
CPCB21B1/46B21B15/00B21C37/02C22C11/06C25C7/02
Inventor 贾天将陆帅安成王焱杜飞沈天海
Owner 宁夏天元锰材料研究院(有限公司)
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