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A kind of preparation method of graphene rare earth aluminum alloy high conductive material

A technology of high-conductivity materials and aluminum alloys is applied in the field of preparation of graphene rare-earth aluminum alloy high-conductivity materials, which can solve the problems of reducing the flexural fatigue resistance of aluminum alloys, increasing strength, and breaking wires, and achieves elimination of residual stress and microstructure. The effect of reducing the inhomogeneity, refining the recrystallized grains, and reducing harmful effects

Active Publication Date: 2019-03-19
ANHUI NANYANG NEW MATERIAL TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, conductor materials made of ordinary aluminum have poor electrical conductivity and heat resistance, and disconnection often occurs during the production process, which increases the production cost and use cost of aluminum alloy conductor materials; aluminum alloy is used as the conductor material , the microstructure in its aluminum alloy needs to be improved, resulting in an increase in the strength of the aluminum alloy conductor material and a decrease in electrical conductivity and plasticity, while reducing the flex fatigue resistance of the aluminum alloy; graphene has excellent physical properties, electrical conductivity and thermal conductivity , as a reinforcement is widely used in metal matrix composites, but the wettability between graphene and matrix metal is poor, resulting in poor interface bonding strength between graphene and matrix metal, and the agglomeration and dispersion of graphene Uniformity is difficult to control, affecting the overall performance of composite materials

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0021] The preparation method of a kind of graphene rare earth aluminum alloy high-conductivity material that the present invention proposes, concrete steps are as follows:

[0022] S1. Heat up the melting furnace to 750°C, add scrap aluminum, heat up to 865°C after it melts, add silicon-calcium alloy, copper-aluminum alloy, zinc-aluminum alloy, and magnesium ingot, and add rare earth aluminum alloy, Graphene, fully stirred, standing still, sampling for rapid pre-furnace analysis, to obtain aluminum alloy liquid;

[0023] S2. Casting and rolling the aluminum alloy solution to obtain an aluminum alloy; wherein, the temperature of the ladle is 725° C., the pressure of the cooling water of the casting machine is 5 kg, and the temperature of the aluminum alloy cast strip before entering the rolling mill after casting is 445° C., emulsified Liquid temperature is 35°C;

[0024] S3. Perform homogenization treatment on the aluminum alloy, and then perform aging treatment to obtain a ...

Embodiment 2

[0027] The preparation method of a kind of graphene rare earth aluminum alloy high-conductivity material that the present invention proposes, concrete steps are as follows:

[0028] S1. Heat up the melting furnace to 720°C, add scrap aluminum, heat up to 840°C after it melts, add silicon-calcium alloy, copper-aluminum alloy, zinc-aluminum alloy, and magnesium ingot, and add rare earth aluminum alloy, Graphene, fully stirred, let it stand for 25 minutes, took a sample for rapid pre-furnace analysis, and obtained aluminum alloy liquid;

[0029] S2. Casting and rolling the aluminum alloy solution to obtain an aluminum alloy; wherein, the temperature of the ladle is 700°C, the pressure of the cooling water of the casting machine is 3 kg, and the temperature of the aluminum alloy cast strip after casting is 420°C before entering the rolling mill, emulsified Liquid temperature is 25°C;

[0030] S3. Perform homogenization treatment on the aluminum alloy, and then perform aging treat...

Embodiment 3

[0034] The preparation method of a kind of graphene rare earth aluminum alloy high-conductivity material that the present invention proposes, concrete steps are as follows:

[0035] S1. Heat up the melting furnace to 760°C, add scrap aluminum, heat up to 880°C after it melts, add silicon-calcium alloy, copper-aluminum alloy, zinc-aluminum alloy, magnesium ingot, and add rare earth aluminum alloy, Graphene, fully stirred, let it stand for 20 minutes, took a sample for rapid pre-furnace analysis, and obtained aluminum alloy liquid;

[0036] S2. Casting and rolling the aluminum alloy liquid to obtain aluminum alloy; wherein, the temperature of the ladle is 730°C, the pressure of the cooling water of the casting machine is 6 kg, and the temperature of the aluminum alloy cast strip after casting is 450°C before entering the rolling mill, emulsified Liquid temperature is 40°C;

[0037] S3. Homogenize the aluminum alloy at 220° C. for 4 hours, then at 260° C. for 3 hours, and then a...

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Abstract

The present invention discloses a method of preparation of graphene rare earth aluminum alloy high -guide materials. The specific steps are as follows: adding waste aluminum, silicon calcium alloy, copper aluminum alloy, zinc and aluminum alloy, magnesium ingot, rare earth aluminum alloy, graphene to the melting furnaceMelving in the middle, analysis of pre -furnaces, obtained aluminum alloy liquid, and then casting and rolling aluminum alloy to obtain aluminum alloy, and then uniformly treated with aluminum alloy, and then timeliness processing to obtain high graphene rare earth aluminum alloy high -guide materials.The preparation method of a graphene rare earth aluminum alloy high -guide material proposed by the present invention. Through reasonable setting process parameters, optimizing the structure of graphene, effectively improving the overall performance of aluminum alloyGood conductivity, heat resistance, arc resistance and mechanical properties.

Description

technical field [0001] The invention relates to the technical field of metal materials, in particular to a preparation method of a graphene rare earth aluminum alloy high conductivity material. Background technique [0002] With the rapid growth of my country's power transmission volume, the requirements for materials in the transmission process are becoming increasingly stringent. High-quality transmission lines should have the characteristics of long transmission distance, large transmission capacity, and strong resistance to natural disasters. Thermal and sag resistance put forward higher performance requirements for transmission lines. At present, conductor materials made of ordinary aluminum have poor electrical conductivity and heat resistance, and disconnection often occurs during the production process, which increases the production cost and use cost of aluminum alloy conductor materials; aluminum alloy is used as the conductor material , the microstructure in its a...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C22C21/14C22C21/16C22C21/18C22C1/03C22C1/10H01B1/02
CPCH01B1/023C22C1/1005C22C1/1036C22C21/14C22C21/16C22C21/18C22C1/1047
Inventor 叶明高
Owner ANHUI NANYANG NEW MATERIAL TECH CO LTD
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