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A high-performance cooper-coated aluminum rectangle section compound conductive bus bar and its making technology

A composite conductive, copper-clad aluminum technology, applied in the direction of manufacturing tools, cable/conductor manufacturing, circuits, etc., can solve the problems of small deformation, high production cost, difficult to guarantee product performance, etc., to achieve increased width range and automation degree The effect of high and excellent electrical conductivity

Active Publication Date: 2010-12-08
UNIV OF SCI & TECH BEIJING
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

There are problems in this method: First, since the aluminum core and the copper tube must be assembled together by gap fit, and the gap is difficult to completely eliminate in subsequent processing, it is difficult to avoid gap discharge corrosion during use, and the product The performance is difficult to guarantee; secondly, because it is difficult to guarantee the straightness of the copper tube and the aluminum tube, it is difficult to produce a long copper-clad aluminum busbar; thirdly, due to the inner surface of the copper tube and the surface of the aluminum core before compounding Complicated cleaning procedures are required, and it is difficult to achieve continuous production, so the production efficiency is low and the production cost is high; Fourth, the solid-phase composite copper-clad aluminum billet is drawn or rolled, due to the small amount of deformation in a single pass, it is easy to cause Peeling of copper and aluminum layers reduces the yield and conductivity of copper-clad aluminum special-shaped wires
The disadvantages of this method are: firstly, the copper pipe needs to be cleaned and coated with a protective layer, which not only increases the production cost, but also increases the environmental burden; secondly, casting under a protective atmosphere limits the length of the billet, and when the copper pipe For a long time, it is difficult to avoid defects such as cold shut, shrinkage cavity, and porosity; third, the pretreatment process is complicated, and it is difficult to form continuous production, the production efficiency is low, and the production cost is high; The mouth needs to cut off the head and tail, which further reduces the production efficiency and yield
The above-mentioned possible methods for preparing copper-clad aluminum conductive busbars all have problems such as long process routes, poor quality consistency and stability, and high production costs.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0015] Embodiment 1: Preparation of a copper-clad aluminum conductive busbar with a size of 80×8 mm.

[0016] ① The copper-clad aluminum composite billet with an outer diameter of φ60mm was prepared by direct composite molding by horizontal continuous casting, and the area ratio of the copper layer was 25%. The process conditions are: the temperature of molten copper is 1200°C, the temperature of molten aluminum is 785°C, and the continuous casting speed is 90mm / min;

[0017] ②Using flat roll cold rolling to make 82×8.1mm copper-clad aluminum flat strip. The rolling speed is 5m / min, and the relative reduction in a single pass is 20% to 50%. Among them, when the thickness of the billet is 60 to 22mm, the relative reduction in a single pass is 40% on average, and the reduction is divided into 2 passes; When the thickness of the billet is 22-11mm, the average relative reduction in a single pass is 30%, and the reduction is divided into 2 passes; when the thickness of the billet ...

Embodiment 2

[0020] Example 2: Preparation of a copper-clad aluminum conductive busbar with a size of 100×10 mm.

[0021] ① Horizontal continuous casting direct compound forming to prepare copper-clad aluminum composite billet with an outer diameter of φ75mm, and the area ratio of copper layer is 30%. The process conditions are: the temperature of molten copper is 1190℃~1200℃, the temperature of molten aluminum is 770~780℃, and the continuous casting speed is 80mm / min;

[0022] ②Using flat roll cold rolling to make 103×10.2mm copper-clad aluminum flat strip. The rolling speed is 10m / min, and the relative reduction in a single pass is 20% to 50%. Among them, when the billet thickness is 75 to 27mm, the average relative reduction in a single pass is 40%, and the reduction is divided into 2 passes; When the thickness of the billet is 27-13mm, the average relative reduction in a single pass is 30%, and the reduction is divided into 2 passes; when the thickness of the billet is 13-10mm, the av...

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Abstract

The present invention provides a high-performance copper-clad aluminum cross section composite conductive bus-bar and the preparing technique thereof, and the invention relates to a rectangle-cross section bimetal composite material and the preparation thereof. The copper-clad aluminum rectangular cross section composite conductive bus-bar is compounded by the core-part aluminum and the coating layer copper. The area proportion of the coating copper layer is 15to 50 The technique comprises the following procedures: Adopting horizontal continuous casting for directly compounding and forming the copper-clad aluminum composite blank. Commonly flat-roller rolling and finish drawing-pulling the copper-clad aluminum blank according to requirement or rolling with the flat roller provided with a vertical roller, the range of the rolling speed is 3-50m / min, and the single-pass relative reduction is between 15and 40 The speed range of finish drawing-pulling is 1-20m / min and the single-pass cross section scalage is 10%. When the multiple-pass relative reduction is up to 70%, the low-temperature intermediate annealing is executed to the copper-clad aluminum composite conductive bus-bar. The annealing temperature is between 250 and 450 DEG C and the annealing time is between 0.5 and 3h. The annealed composite conductive bus-bar is executed with hole-form rolling or drawing. The invention not only can produce the high-performance copper-clad aluminum cross section composite conductive bus-bar, but also has the advantages of short process flow and high efficiency of the producing method.

Description

technical field [0001] The invention relates to a rectangular cross-section bimetallic composite material and a preparation method thereof, in particular to a high-performance copper-clad aluminum rectangular cross-section composite conductive busbar and a production method thereof. Background technique [0002] Copper-clad aluminum composite conductor is a new type of bimetallic composite conductor, which has the advantages of good electrical conductivity, low density, and low cost. Among them, its typical product, copper-clad aluminum rectangular cross-section composite conductive busbar, has high cost performance and can be It replaces the existing pure copper rectangular conductive busbar, and is widely used in industries such as electric power, busway, high and low voltage switchgear. [0003] The production methods of copper-clad aluminum rectangular cross-section composite conductive busbars that have been publicly reported are as follows: (1) using aluminum cores and...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B21C1/00B22D11/00B22D23/00H01B5/02H01B13/00B21B38/00
Inventor 谢建新刘新华刘雪峰罗奕兵
Owner UNIV OF SCI & TECH BEIJING
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