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Method for producing aluminium-lithium alloy with high lithium content by low-temperature molten salt electrolysis

An aluminum-lithium alloy and low-temperature molten salt technology, which is applied in the field of electrometallurgy, can solve the problems of serious volatilization loss of lithium chloride, is not suitable for industrial production, and increases the cost of raw materials, so as to avoid cathode cracking, low production cost, and production process. the effect of shortening

Inactive Publication Date: 2010-02-10
HARBIN ENG UNIV
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  • Summary
  • Abstract
  • Description
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  • Application Information

AI Technical Summary

Problems solved by technology

However, if such a high electrolysis temperature is used, the volatilization loss of lithium chloride is relatively serious, which will increase the cost of raw materials and cause environmental pollution, so it is not suitable for industrial production.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0019] Embodiment 1: In the electrolysis furnace, with aluminum as the cathode, graphite as the anode, with LiCl: KCl=45:55 (mass ratio) as the electrolyte system, the electrolysis temperature is 380 ° C, and the cathode current density is 1.0A / cm 2 , anode current density 0.5A / cm 2 , cell voltage 4.1 ~ 4.8V, 5 ~ 10% LiCl (initial LiCl amount) added every 1 hour during the electrolysis process, after 2 hours of electrolysis, high lithium is deposited near the cathode in the molten salt electrolytic cell content of liquid aluminum-lithium alloy, solidified solid aluminum-lithium alloy. The contents of aluminum and lithium in the alloy are 39.1% and 60.9% respectively.

Embodiment 2

[0020] Embodiment 2: In the electrolysis furnace, with aluminum as the cathode, graphite as the anode, with LiCl: KCl=45:55 (mass ratio) as the electrolyte system, the electrolysis temperature is 380-390 ° C, and the cathode current density is 1.5A / cm 2 , anode current density 0.5A / cm 2 , the cell voltage is 5.3-5.6V, and 5-10% LiCl (initial LiCl amount) is added every 45 minutes during the electrolysis process. After 1.5 hours of electrolysis, high-lithium lithium is deposited near the cathode in the molten salt electrolytic cell. content of liquid aluminum-lithium alloy, solidified solid aluminum-lithium alloy. The contents of aluminum and lithium in the alloy are 44.0% and 66.0% respectively.

Embodiment 3

[0021] Embodiment 3: In the electrolysis furnace, with aluminum as the cathode, graphite as the anode, with LiCl: KCl=45:55 (mass ratio) as the electrolyte system, the electrolysis temperature is 400 ° C, and the cathode current density is 1.0A / cm 2 , anode current density 0.5A / cm 2 , the cell voltage is 4.4-4.9V, and 5-10% LiCl (initial LiCl amount) is added every 1 hour during the electrolysis process. After 4 hours of electrolysis, high-lithium lithium is deposited near the cathode in the molten salt electrolytic cell. content of liquid aluminum-lithium alloy, solidified solid aluminum-lithium alloy. The contents of aluminum and lithium in the alloy are 38.6% and 61.4% respectively.

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Abstract

The invention provides a method for producing an aluminium-lithium alloy with high lithium content by low-temperature molten salt electrolysis. In an electrolytic furnace, aluminium is taken as a cathode, a cathode sleeve is sheathed thereon, graphite is taken as an anode, an electrolyte system is formed from LiCl and KCl, wherein, the weight ratio of LiCl: KCl is equal to 45: 55, the electrolysistemperature is 380-450 DEG C, the self-consumption cathode method is adopted for carrying out electrolysis, the current density of the cathode is 1-3.0A / cm<2>, the current density of the anode is 0.5A / cm<2>, the cell voltage is 4.1-5.6V, LiCl is supplemented during the electrolysis process for leading the mixing ratio of LiCl: KCl of the electrolyte to be in the vicinity of an eutectic point, theliquid aluminium-lithium alloy with high lithium content is deposited in the vicinity of the cathode in a molten salt electrolytic cell by 1-4 hours of electrolysis, and the solid aluminium-lithium alloy is prepared by solidification. The method can obtain the liquid aluminium-lithium alloy with evenly distributed alloy components at low temperature. The method can avoid the defects of burning loss of lithium during the doping process and the like, simultaneously save energy consumption of doping, mixing and melting process, avoid cracking of the cathode and uneven components, and avoid the defects of burning loss of the lithium caused by higher temperature and volatilization loss of LiCl.

Description

(1) Technical field [0001] The invention relates to a method for producing an aluminum-lithium master alloy by molten salt electrolysis, and belongs to the field of electrometallurgy. (2) Technical background [0002] Al-Li alloy is a lightweight alloy with good comprehensive performance and great development potential. It can reduce the weight of the component and increase the rigidity by replacing the ordinary Al alloy. Therefore, it is considered to be an ideal structural material for aerospace vehicles in the 21st century. It also has great application potential in ships and weapons industry. The material preparation and parts manufacturing process of Al-Li alloy are not different from ordinary aluminum alloys in principle, and the technology and equipment of ordinary aluminum alloys can be used; Al-Li alloys are used to replace traditional aluminum alloys used in aircraft, no need for adaptation In addition, the forming and maintenance of Al-Li alloys are more convenie...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C25C3/36
Inventor 张密林韩伟许建峰陈琼刘瑞国
Owner HARBIN ENG UNIV
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