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Method for preparing high-purity low-chloride electroplated copper oxide

An electroplating-grade copper oxide, high-purity technology, applied in the direction of copper oxide/copper hydroxide, etc., can solve the problems of unverified activity, low activity of copper oxide, high impurity content, etc., and achieve improved operating environment, low impurity content, and high activity high effect

Inactive Publication Date: 2013-04-03
TAIXING SMELTING PLANT
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Regarding the production process of copper oxide, it is also involved in some invention patents disclosed at present. The application number is 01127175.2, which uses copper sulfate and copper material as raw materials, undergoes low-temperature oxidation at 80-85°C, obtains copper sulfate through crystallization, and then mixes it with Sodium hydroxide reaction, and then through ball milling, pressure filtration, washing, drying, and pulverization to obtain active copper oxide. Waste water; Application number is the technique that 200710076208.1 discloses to produce copper oxide through distilling ammonia with alkaline etching waste liquid, owing to be to make by distilling ammonia for a long time under high temperature, strong alkali state with alkaline etching waste liquid, so copper oxide activity is relatively Low; the application number is 200710071896.2, which discloses the reaction of copper nitrate and sodium hydroxide through pressure filtration, drying, and roasting to produce copper oxide, which will produce nitrogen dioxide or nitrogen monoxide waste gas, which will cause certain pollution to the environment; application number is 200810067243.1 The production process of synthesizing basic copper chloride as a precursor, and then reacting with sodium hydroxide to produce monoclinic copper oxide, but its activity has not been verified experimentally
At present, copper oxide for horizontal electroplating is also prepared from basic copper carbonate as raw material, but basic copper carbonate is mostly obtained by traditional technology, with high content of impurities such as iron and lead, low purity and insufficient activity.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0030] (1) Pour liquid ammonia into the water at a pressure of 0.2MPa, pass the ammonia for 6 hours to produce concentrated ammonia water with a concentration of 135g / L, then pass carbon dioxide with a purity ≥ 99.9% into the concentrated ammonia water to prepare carbonized ammonia water, and turn on the cooling at the same time Water, to the cooling coil set in the concentrated ammonia water but not connected with the concentrated ammonia water, pass the cooling water with a temperature of less than 15°C for cooling, control the pressure of the carbon dioxide to be 0.2MPa, make the degree of carbonization 140%, and pass the carbon dioxide Enter the reaction formula in concentrated ammonia water as follows:

[0031] 2NH 3 + CO 2 + H 2 O=(NH 4 ) 2 CO 3 ;

[0032] (2) Put 62.5×10 in an airtight container 3 mol copper content ≥ 99.95% standard cathode copper, then inject 3m into the container 3 The prepared in step (1) contains 16.68×10 3 mol of ammonium carbonate react...

Embodiment 2

[0042] (1) Pass liquid ammonia into the water at a pressure of 0.1MPa, pass the ammonia for 7 hours to produce concentrated ammonia water with a concentration of 102g / L, then pass carbon dioxide with a purity ≥ 99.9% into the concentrated ammonia water to prepare carbonized ammonia water, and turn on the cooling at the same time Water, to the cooling coil set in the concentrated ammonia water but not connected with the concentrated ammonia water, pass the cooling water with a temperature of less than 15°C for cooling, control the pressure of the carbon dioxide to be 0.1MPa, make the degree of carbonization 120%, and pass the carbon dioxide Enter the reaction formula in concentrated ammonia water as follows:

[0043] 2NH 3 + CO 2 + H 2 O=(NH 4 ) 2 CO 3 ;

[0044] (2) Put 62.5×10 in an airtight container 3 mol copper content ≥ 99.95% standard cathode copper, then inject 3.5m into the container 3 The prepared in step (1) contains 12.6×10 3 The carbonized ammonia water r...

Embodiment 3

[0054] (1) Pour liquid ammonia into the water at a pressure of 0.05MPa, pass the ammonia for 7 hours to produce concentrated ammonia water with a concentration of 85g / L, then pass carbon dioxide with a purity ≥ 99.9% into the concentrated ammonia water to prepare carbonized ammonia water, and turn on the cooling at the same time Water, to the cooling coil set in the concentrated ammonia water but not connected with the concentrated ammonia water, pass cooling water with a temperature of less than 15°C for cooling, control the pressure of passing carbon dioxide to 0.05MPa, make the degree of carbonization 80%, and pass through the carbon dioxide Enter the reaction formula in concentrated ammonia water as follows:

[0055] 2NH 3 + CO 2 + H 2 O=(NH 4 ) 2 CO 3 ;

[0056] (2) Put 62.5×10 in an airtight container 3 mol copper content ≥ 99.95% standard cathode copper, then inject 3.2m into the container 3 The prepared in step (1) contains 6.4×10 3 The carbonized ammonia wat...

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PUM

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Abstract

The invention discloses a method for preparing high-purity low-chloride electroplated copper oxide. The method comprises the following steps: taking copper, liquid ammonia and high-purity carbon dioxide as raw materials; preparing stronger ammonia water at first; then pumping high-purity carbon dioxide into the stronger ammonia water; preparing and obtaining carbonated ammonia water through controlling the carbonization degree; achieving reaction between the carbonated ammonia water and copper under a certain air pressure to obtain a copper and ammonia complexing solution; preparing heavy high-purity cupric subcarbonate through heating, ammonia distillation, separation, washing, drying and screening; and heating, calcining and decomposing the heavy cupric subcarbonate to obtain high-purity low-chloride electroplated copper oxide. According to the invention, as carbon dioxide serves as the raw material, the problem that the raw material for producing cupric subcarbonate by adopting a traditional method carries heavy metal ions, chloride ion and other impurities is solved, the reaction speed is increased, the production period is shortened, the production efficiency is greatly improved, the impurity content is low, high purity and activity are realized, and the product can be applied more widely. The method has the advantages of high yield, low energy consumption, little pollution and low cost.

Description

technical field [0001] The invention belongs to the field of copper oxide production, in particular to a method for preparing high-purity low-chlorine electroplating-grade copper oxide by using carbon dioxide as a raw material. Background technique [0002] In the PCB manufacturing process, the traditional electroplating process uses a copper plate as the anode plate and supplements the copper source. Due to the complex shape of the electronic components, there are holes, concave-convex surfaces and other shapes. In the holes, the electroplating solution cannot penetrate, so the plating Less than copper, the protruding part has a high current density and a thick coating, while the concave part has a low current density and a thin coating, resulting in unqualified products. [0003] At present, the horizontal electroplating process is common in the PCB manufacturing industry in the market. This process overcomes the shortcomings of the traditional process, but this process...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C01G3/02
Inventor 徐金章刘后传许明才
Owner TAIXING SMELTING PLANT
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