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Composite material with high bonding force

A technology of composite materials and binding force, applied in the direction of electrolytic coating, surface reaction electrolytic coating, coating, etc., can solve the problems of unfavorable electroplating process, undisclosed etching method, non-uniform corrosion, etc., and achieve simple and easy positioning corrosion, cleaning Good removal and high solubility

Active Publication Date: 2020-06-16
瑞安市奥丰实业有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0051] For details, see the attached figure 1 It is stated in the relevant content of the specification that “in some cases, the oxide structure 18 can be etched to remove its part (including the barrier layer) at the bottom of the nanopore 16, thereby exposing the underlying aluminum substrate 12”, that is, the The prior art directly abandons the treatment of the shielding layer 19, or directly etches it away vaguely, and does not disclose a specific etching method at all.
[0052] In addition, methods for removing the shielding layer are also described in the prior art, including the use of oxalic acid or phosphoric acid, or other mixtures, but there are obvious technical problems as follows: (1) The porous oxide layer cannot be limitedly distinguished by acid corrosion And the shielding layer, that is, the acid solution corrodes the anodic oxide film indiscriminately, which seriously affects the array structure of the anodic oxide film channel, resulting in the collapse of the anodic oxide film array structure or non-uniform corrosion, which is not conducive to the subsequent electroplating process and seriously reduces the electroplating of the coating. Uniformity and stability of bonding force; (2) During the corrosion process, when the shielding layer is penetrated, the corrosion solution will obviously corrode the aluminum material, causing damage to the base material

Method used

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Examples

Experimental program
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Effect test

Embodiment 1

[0112] The pretreatment step used in embodiment 1-3 is consistent with the solution, all including mechanical polishing-degreasing-hot water washing-alkali washing-hot water washing-cold water washing-acid washing-water washing:

[0113] The mechanical polishing is sandblasting,

[0114] Described degreasing is alkaline degreasing, and degreasing liquid is the mixed aqueous solution of 23g / L sodium carbonate and 2.5g / L sodium phosphate, temperature 67 o C, soaking time 5.5min;

[0115] Described alkali washing liquid is the sodium citrate aqueous solution of 25g / LNaOH, 4g / L, and temperature is 15 o C, soaking time 17.5min;

[0116] The pickling and deashing solution is 60g / L HNO 3 and a mixed aqueous solution of 6g / LNaF at room temperature for 2.5 minutes.

[0117] (2) Anodizing: use the aluminum material treated in step (1) as the anode, graphite as the cathode, immerse in the electrolyte, and connect the power supply through wires respectively. The electrolyte is a mixtu...

Embodiment 2

[0125] (2) Anodizing: use the aluminum material treated in step (1) as the anode, graphite as the cathode, immerse in the electrolyte, and connect the power supply through wires respectively. The electrolyte is a mixture of oxalic acid, phosphoric acid and sulfosalicylic acid , the concentration of oxalic acid is 0.275M, the concentration of phosphoric acid is 0.3M, the concentration of sulfosalicylic acid is 0.1M, the electrolysis parameters are as follows, the voltage is 25V, the temperature is 30 o C, current density 2.5A / dm 2 , time 25min; after anodizing, soak and clean in ethanol, and use vacuum drying to remove the electrolyte in the oxide film. The whole process strictly avoids the aluminum after anodizing from contacting air or water to avoid sealing holes.

[0126] (3) Protective film for positioning marks: Soak the aluminum material treated in step (2) in a toluene solution of γ-chloropropyltrimethylsilane, the concentration is 15wt.%, and the amount is 1% of the we...

Embodiment 3

[0133] (2) Anodizing: use the aluminum material treated in step (1) as the anode, graphite as the cathode, immerse in the electrolyte, and connect the power supply through wires respectively. The electrolyte is a mixture of oxalic acid, phosphoric acid and sulfosalicylic acid , the concentration of oxalic acid is 0.275M, the concentration of phosphoric acid is 0.3M, the concentration of sulfosalicylic acid is 0.1M, the electrolysis parameters are as follows, the voltage is 25V, the temperature is 30 o C, current density 2.5A / dm 2 , time 25min; after anodizing, soak and clean in ethanol, and use vacuum drying to remove the electrolyte in the oxide film. The whole process strictly avoids the aluminum after anodizing from contacting air or water to avoid sealing holes.

[0134] (3) Protective film for positioning marks: Soak the aluminum material treated in step (2) in a toluene solution of γ-chloropropyltrimethylsilane, the concentration is 15wt.%, and the amount is 1% of the we...

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Abstract

The invention provides a composite material with high bonding force. A shielding layer at the bottom of an anodized film, an aluminum metal substrate is exposed, and then single-metal electroplating treatment is carried out, so that bonding of an anodized substrate and a coating is effectively improved.

Description

technical field [0001] The invention relates to a composite material with high binding force, which belongs to the field of anodized aluminum material without shielding layer prepared by electrochemical method, and is especially suitable for improving the binding force between aluminum material and electroplated metal. [0002] technical background [0003] With the rapid development of science and technology and industry, people have more and more stringent requirements on metal properties. Lightweight and high-hardness metal alloy materials are widely used in related fields. Since the output of aluminum in the world is second only to iron, light metal aluminum alloys The material gets a lot of attention. Aluminum and aluminum alloy materials have low hardness, poor wear resistance, and are prone to intergranular corrosion, and a thin oxide film is easy to form on the surface of aluminum under natural conditions, and the film is easy to be damaged, especially under acid (alk...

Claims

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Application Information

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IPC IPC(8): C25D5/12C25D5/18C25D5/44C25D11/20C25D11/24C25D3/12
CPCC25D3/12C25D5/12C25D5/18C25D5/44C25D11/20C25D11/24
Inventor 王永芝
Owner 瑞安市奥丰实业有限公司
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