Rare-earth modified Ti-Zr chemical passivation solution for surface treatment of aluminium profiles and using method of rare-earth modified Ti-Zr chemical passivation solution

A rare earth modification and surface treatment technology, applied in the direction of metal material coating process, etc., can solve the problems such as the inability to completely replace the chromate system, the comprehensive performance needs to be improved, and the application limit of chromate, so as to improve the on-site judgment. , Improve the quality of film formation, solution stability and good adhesion

Active Publication Date: 2013-05-15
GUANGDONG XINGFA ALUMINUM
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, the chemical passivation process of aluminum alloys generally adopts the chromate method, which has been widely used in aluminum materials in industries such as aviation, aerospace, automobiles, home appliances, construction and decoration, but the hexavalent chromium compound contained in its process formula is a It is a kind of toxic chemical, improper disposal will not only cause great pollution to the environment but also seriously endanger human health
Because of this, chromate has been listed as extremely poisonous by the relevant environmental protection departments of many countries. In 2000, the European Parliament passed the ELVs law to stipulate that the amount of hexavalent chromium used for the surface protection treatment of each car should not exceed 2g. The European Union’s ROHS Explicit restrictions include Cr 6+ The use of six components in electrical and electronic equipment, it is foreseeable that the application of chromate in industry will be subject to increasingly strict restrictions
Although a lot of research has been done on the chromium-substituting passivation film process at home and abroad, the titanium-zirconium system is the earliest chromium-free treatment system developed, and most of the current industrial production uses this treatment solution containing titanium (zirconium) fluorine complexes. However, its passivation film is colorless, which brings certain difficulties to industrial operation, and the overall performance needs to be improved, so these technologies cannot completely replace the chromate system.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0061] a. Remove the attached dirt on the surface of 6063 aluminum alloy, and then rinse it with pure water.

[0062] b. Immerse the aluminum alloy treated in step a into 15% sulfuric acid, 5% hydrofluoric acid, 3mL·L -1 OP emulsifier, 0. 2g L -1 Degreasing and removal of oxide film in thiourea 70°C acidic degreasing solution for 2 minutes, and then rinse with pure water after treatment.

[0063] c. Dip the aluminum alloy treated in step b into 5g·L -1 Alkali neutralization treatment is carried out in the alkali neutralization solution of sodium hydroxide for 0.5min, and rinse with pure water after the reaction is completed.

[0064] d. Putting the aluminum alloy treated in step c into a passivation treatment solution for treatment. Passivation treatment liquid composition is potassium fluotitanate 3g L -1 , Potassium Fluozirconate 2g·L -1 , cerium nitrate 1g·L -1 , Potassium nitrate 5g·L -1 , sodium fluoride 0.8g L -1 , Sodium dodecylbenzenesulfonate 0.5g·L -1 , Nitr...

Embodiment 2

[0068] The above-mentioned 2024 aluminum alloy was subjected to the same pretreatment as in Example 1, and then placed in a passivation treatment solution for treatment. Passivation solution composition is potassium fluotitanate 2.5g L -1 , Potassium fluozirconate 2.5g L -1 , cerium sulfate 2g·L -1 , Potassium nitrate 3g·L -1 , Potassium fluoride 0.5g L -1 , OP-10 0.5 g·L -1 , nitric acid 0.8mL·L -1 , boric acid 3g·L -1 , adjust the pH to 3.5, the temperature to 40° C., and the reaction time to 2 min. After the reaction is completed, rinse with pure water, dry naturally, and store in a dry place. The surface of the treated 2024 aluminum alloy forms a layer of light yellow passivation film with excellent corrosion resistance, which shows that after passing the 1000h acetic acid salt spray test, there is no corrosion and no shedding.

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Abstract

The invention discloses a rare-earth modified Ti-Zr chemical passivation solution for surface treatment of aluminium profiles and a using method of the rare-earth modified Ti-Zr chemical passivation solution. The rare-earth modified Ti-Zr chemical passivation solution is characterized in that the passivation solution is a main salt for auxiliary film-formation, which takes rare-earth compounds as a Ti-Zr passivation treatment solution, and a passivation film is light yellow in appearance and has field judgement property on the quality of a formed film. A formula of the rare-earth modified Ti-Zr chemical passivation solution is as follows: each litre of solution contains 0.5g.L<-1>-10g.L<-1> of potassium fluotitanate (hexafluorotitanic acid), 0.5g.L<-1>-10g.L<-1> of potassium fluozirconate (fluozirconic acid), 0.5g.L<-1>-5g.L<-1> of cerium nitrate (ceric sulfate and ammonium ceric nitrate), 2g.L<-1>-10g.L<-1> of potassium nitrate, 0.5g.L<-1>-3g.L<-1> of sodium fluoride (potassium fluoride), 0.5g.L<-1>-1g.L<-1> of sodium dodecyl benzene sulfonate or OP-10, 0.2mL-5mL.L<-1> of nitric acid and 1g.L<-1>-5g.L<-1> of boric acid. The using method of the rare-earth modified Ti-Zr chemical passivation solution comprises the following steps of: (1) clearing dirt, such as dirt attached to an aluminium alloy; (2) pretreating the surface of the aluminium alloy; (3) carrying out passivating treatment on the surface of the aluminium alloy by using the rare-earth modified Ti-Zr chemical passivation solution; and (4) washing the aluminium alloy by using water and drying the aluminium alloy. The rare-earth modified Ti-Zr chemical passivation solution disclosed by the invention has the advantages of light yellow appearance, high film formation speed, simple process, uniformity in film layer, strong corrosion resistance, low environment pollution and the like.

Description

technical field [0001] The invention relates to an aluminum alloy surface treatment method, in particular to preparing a rare earth modified Ti-Zr composite passivation film with good corrosion resistance on the aluminum alloy surface by using a non-chromium passivation treatment liquid. Background technique [0002] Aluminum alloy is the second largest metal structural material after steel, and is widely used in many fields such as automobiles, aerospace, architectural decoration, home appliances, instruments, computers, mobile phones, and daily hardware. Aluminum alloy products must undergo surface treatment before use. Among them, chemical passivation treatment has the advantages of little impact on the fatigue performance of the base material, convenient operation, low cost, high production efficiency, and wide application range. It is the most widely used surface treatment technology. one. The aluminum alloy is coated after passivation treatment, which can greatly impr...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C23C22/34C23C22/73
Inventor 梁奕清
Owner GUANGDONG XINGFA ALUMINUM
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