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Aluminum-magnesium alloy wire with high conductivity and rapid drawing molding

An aluminum-magnesium alloy, high-conductivity technology, applied in the field of aluminum-magnesium alloy wire, can solve the problems of aluminum-magnesium alloy wire tensile performance, electrical conductivity discount, manufacturer loss, variable surface, etc., to reduce the number of drawing times and save energy. Cost, effect of improving uniformity

Inactive Publication Date: 2019-04-02
GUANGXI PINGGUO BODAO MG CABLE
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

This kind of aluminum-magnesium alloy is often due to the original impurities or impurities introduced later in the production process, which greatly reduces the tensile performance and electrical conductivity of the aluminum-magnesium alloy wire, especially during the drawing process. Even cracks appear on the surface, which not only causes a serious waste of resources, but also brings incalculable losses to the manufacturer.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0021] A high-conductivity, rapid-drawing aluminum-magnesium alloy wire. The raw materials include magnesium, copper, zinc, boron, silicon, manganese, titanium, polyethylene glycol, and hectorite. The specific formula includes magnesium 2.5%, 0.5% copper, 0.5% zinc, 0.8% boron, 0.4% silicon, 0.3% manganese, 0.3% titanium, 0.2% polyethylene glycol, 0.03% hectorite, the total content of other impurities is not more than 0.2%, and the balance is Aluminum, of which 1.2% lithium is contained in hectorite.

[0022] Preparation method: Melt the above-mentioned metal ingredients at a temperature of 550-600°C, degas and remove impurities after the melt temperature drops to 200-250°C, return to temperature properly, add polyethylene glycol and hectorite, mix well, and keep warm , transferred to the extrusion die and extruded into initial wires with diameters of 5.8mm, 6.4mm, 7.5mm and 8mm; finally, at a drawing speed of 450-500m / min, repeated drawing twice to finally obtain diameters of...

Embodiment 2

[0024] A high-conductivity, rapid-drawing aluminum-magnesium alloy wire. The raw materials include magnesium, copper, zinc, boron, silicon, manganese, titanium, polyethylene glycol, and hectorite. The specific formula includes magnesium 3.5%, 1.5% copper, 1.2% zinc, 1.5% boron, 1.5% silicon, 1.2% manganese, 1.2% titanium, 0.8% polyethylene glycol, 0.06% hectorite, the total content of other impurities is not more than 0.2%, and the balance is Aluminum, of which the lithium content in hectorite is 1.22%.

[0025] Preparation method: Melt the above-mentioned metal ingredients at a temperature of 550-600°C, degas and remove impurities after the melt temperature drops to 200-250°C, return to temperature properly, add polyethylene glycol and hectorite, mix well, and keep warm , transferred to the extrusion die and extruded into initial wire rods with diameters of 5.5mm, 6mm, 7mm and 8mm; finally, at a drawing speed of 450-500m / min, wire rods with diameters of 0.12, 0.3mm, 0.35mm an...

Embodiment 3

[0027] A high-conductivity, rapid-drawing aluminum-magnesium alloy wire. The raw materials include magnesium, copper, zinc, boron, silicon, manganese, titanium, polyethylene glycol, and hectorite. The specific formula includes magnesium 3%, Copper 1.2%, 1%, 1.4%, silicon 1.2%, manganese 0.8%, titanium 0.9%, polyethylene glycol 0.7%, hectorite 0.05%, the total content of other impurities does not exceed 0.2%, and a single impurity does not exceed 0.05% %, the balance is aluminum, and the lithium content in hectorite is 1.25%.

[0028] Preparation method: Melt the above-mentioned metal ingredients at a temperature of 550-600°C, degas and remove impurities after the melt temperature drops to 200-250°C, return to temperature properly, add polyethylene glycol and hectorite, mix well, and keep warm , transferred to the extrusion die and extruded into initial wires with diameters of 5mm, 6mm, 7mm and 8mm; finally drawn at a drawing speed of 450-500m / min to obtain diameters of 0.15, 0...

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Abstract

The invention discloses an aluminum-magnesium alloy wire with high conductivity and rapid drawing molding. The aluminum-magnesium alloy wire comprises magnesium, copper, zinc, boron, silicon, manganese, titanium, polyethylene glycol and hectorite, wherein the metal ingredients are smelted, the temperature of the melt is reduced to 200-250 DEG C, degassing and impurity removal are carried out, andthe temperature is properly returned, adding polyethylene glycol and hectorite to uniformly mixing, preserving heat, extruding to form a primary wire, and finally drawing and forming is carried out. The aluminum-magnesium alloy wire can effectively improve the strength and the conductivity of the aluminum-magnesium alloy wire, meanwhile, the drawing deformation rate is reduced, the drawing formingrate is improved, the drawing frequency is reduced, the production cost is saved, the tensile strength is 270 Mpa or above, and the conductivity is remarkably improved.

Description

technical field [0001] The invention belongs to the technical field of aluminum alloy cables, in particular to a high-conductivity, fast-drawing aluminum-magnesium alloy wire. Background technique [0002] my country is a big producer and exporter of electronic communication materials. At present, aluminum-magnesium alloy wire, as a shielding electronic communication material that can replace pure copper round wire, occupies a prominent position in the aluminum alloy cable market and is widely used in the field of information transmission. The industrial broadband transmission network is matched with the communication network, and it is used in the military industry and aerospace fields. [0003] Ordinary aluminum-magnesium alloy wires are usually mixed with raw materials such as aluminum ingots, magnesium ingots, and copper, and undergo smelting, degassing and impurity removal, heat treatment, and drawing. This kind of aluminum-magnesium alloy is often due to the original i...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22C21/08C22C1/10C22C1/02B21C37/04H01B1/02
CPCH01B1/023C22C1/1036C22C21/08B21C37/047C22C1/1047
Inventor 许方根蒋新云左涛刘宇
Owner GUANGXI PINGGUO BODAO MG CABLE
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