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A production process of single crystal conductive copper rod up-leading continuous casting method

A production process and continuous casting technology, which is applied in the field of single crystal conductive copper rod up-leading continuous casting process, can solve the problems of low qualified rate of slab and difficulty in controlling the oxygen content of slab, and achieve good continuity and high production efficiency. Varieties and specifications are flexible and diverse, and the product quality is good

Active Publication Date: 2019-07-19
江苏裕铭铜业有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The production of single crystal conductive copper mainly adopts the method of combining directional solidification technology and continuous casting technology; in the prior art, single crystal conductive copper is mainly processed and produced by horizontal continuous casting technology, and the casting obtained by horizontal continuous The oxygen content in the slab is not easy to control, and the qualified rate of the slab produced is low; and the slab produced by the horizontal continuous casting process needs to be rolled to obtain the finished product

Method used

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specific Embodiment 1

[0021] The production process of a single crystal conductive copper rod up-leading continuous casting method provided by this embodiment includes the following steps:

[0022] Step 1. Put 100 kg of electrolytic copper raw material into a closed mixed melting furnace for smelting. The melting temperature is 1100-1200 degrees Celsius. After the electrolytic copper is completely melted, continue smelting for 15-20 minutes.

[0023] Step 2, drop into 650 grams of aluminum antimony alloy powder, 20 grams of europium oxide powder and 1150 grams of beryllium aluminum alloy powder in the molten copper liquid; The content of antimony element is 35% in the aluminum antimony alloy powder, and the rest is aluminum element; The content of beryllium in the alloy powder is 63%, and the rest is aluminum.

[0024] Step 3, the ventilation inlet is set at the bottom of the closed mixed molten material furnace, the ventilated outlet is set at the top of the closed mixed molten material furnace, a...

specific Embodiment 2

[0029] The production process of a single crystal conductive copper rod up-leading continuous casting method provided in this embodiment has the same specific steps as in Embodiment 1, except that:

[0030] Step 2, drop 600 grams of aluminum antimony alloy powder, 30 grams of europium oxide powder and 1200 grams of beryllium aluminum alloy powder into the molten copper; the content of antimony element in the aluminum antimony alloy powder is 25%, and the rest is aluminum element; beryllium aluminum The content of beryllium element in the alloy powder is 60%, and the rest is aluminum element.

specific Embodiment 3

[0032] The production process of a single crystal conductive copper rod up-leading continuous casting method provided in this embodiment has the same specific steps as in Embodiment 1, except that:

[0033] Step 2, drop 700 grams of aluminum antimony alloy powder, 25 grams of europium oxide powder and 1100 grams of beryllium aluminum alloy powder into the molten copper; the content of antimony element in the aluminum antimony alloy powder is 30%, and the rest is aluminum element; beryllium aluminum The content of beryllium element in the alloy powder is 65%, and the rest is aluminum element.

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Abstract

The invention discloses a production process of single crystal conductive copper rod up-drawing continuous casting method, comprising the following steps: putting electrolytic copper raw materials into a closed mixed molten material furnace for smelting, putting aluminum-antimony alloy powder into molten copper liquid, For europium oxide powder and beryllium aluminum alloy powder, the mixed gas of nitrogen and carbon monoxide is passed to the closed mixed molten material furnace through the ventilation inlet at the bottom of the closed mixed molten material furnace, and the mixed gas is discharged from the ventilated outlet at the top of the closed mixed molten material furnace; the molten mixture Transfer to the upward continuous casting molten material furnace, the molten mixture enters the upward continuous casting crystallizer through the siphon effect, and the crystallized conductive copper rod in the upward continuous casting crystallizer is drawn from the upward continuous casting crystallizer through the pulling device Lead out from the top of the device, and finally pack the finished conductive copper rods into rolls. Compared with the polycrystalline conductive copper rod produced and processed by the present invention, the elongation rate can be increased by 60% to 80%, and the resistivity can be reduced by 15% to 20%.

Description

technical field [0001] The invention relates to the technical field of copper processing technology, in particular to a production technology of single crystal conductive copper rod up-leading continuous casting method. Background technique [0002] Single crystal conductive copper is a new type of conductor material compared to polycrystalline conductive copper. Since the transverse grain boundary is canceled in the metal microstructure, the conductivity of conductive copper and the protection of signal transmission can be significantly improved. Authenticity; In terms of specific extensibility and conductivity, compared with polycrystalline conductive copper rods, single crystal conductive copper can increase the elongation by 60% to 80%, and the resistivity can be reduced by 15% to 20%, which can be widely used In audio-visual equipment, high-definition television and other electronic information-related fields. [0003] The production of single crystal conductive copper...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C30B29/02C30B11/02C22C1/10C22C9/01C22C32/00
CPCC22C1/1036C22C9/01C22C32/0021C30B11/001C30B11/02C30B29/02C22C1/1047
Inventor 尚成荣
Owner 江苏裕铭铜业有限公司
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