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Composite chemical nickel and phosphor plating method

A composite electroless plating and electroless nickel-phosphorous plating technology, which is applied in liquid chemical plating, metal material coating process, coating, etc., can solve the problems of substrate corrosion, difficult maintenance of plating solution, poor bonding force between coating and substrate, etc. Achieve the effect of improving corrosion resistance, reducing loss and improving bonding force

Active Publication Date: 2009-08-26
NINGBO INST OF MATERIALS TECH & ENG CHINESE ACADEMY OF SCI +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, in the industrial production of NdFeB anti-corrosion electroless nickel-phosphorus alloys, there are still problems such as poor bonding between the coating and the substrate, difficult maintenance of the plating solution, and corrosion of the substrate during the plating process.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0013] 1. The NdFeB magnets are ultrasonically degreased by alkaline degreasing liquid, then activated by pickling, and then cleaned.

[0014] 2. Add water to dissolve sodium citrate and sodium acetate, add water to dissolve the nickel sulfate in the formula, then mix and stir these two solutions, record this mixed solution as (a) here. Dissolve the sodium hypophosphite with an appropriate amount of water, then slowly pour it into the solution of (a) while stirring, and stir evenly; add distilled water or deionized water to the specified volume. The pH of the solution was adjusted to 9.0 with 5% sodium hydroxide and filtered. Record the filtered solution as (b). Wherein, (b) solution contains nickel sulfate 28g / l, sodium hypophosphite 25g / l, sodium citrate 40g / l, sodium acetate 25g / l.

[0015] 3. Add water to dissolve sodium citrate and sodium acetate, add water to dissolve the nickel sulfate in the formula, then mix these two solutions and stir evenly, record this mixed sol...

Embodiment 2

[0020] 1. The NdFeB magnets are ultrasonically degreased by alkaline degreasing liquid, then activated by pickling, and then cleaned.

[0021] 2. Add water to dissolve sodium citrate and sodium acetate, add water to dissolve the nickel sulfate in the formula, then mix and stir these two solutions, record this mixed solution as (a) here. Dissolve the sodium hypophosphite with an appropriate amount of water, then slowly pour it into the solution of (a) while stirring, and stir evenly; add distilled water or deionized water to the specified volume. The pH of the solution was adjusted to 10.0 with 5% sodium hydroxide and filtered. Record the filtered solution as (b). Wherein, (b) solution contains nickel sulfate 28g / l, sodium hypophosphite 25g / l, sodium citrate 40g / l, sodium acetate 25g / l.

[0022] 3. Add water to dissolve sodium citrate and sodium acetate, add water to dissolve the nickel sulfate in the formula, then mix these two solutions and stir evenly, record this mixed so...

Embodiment 3

[0027] 1. The NdFeB magnets are ultrasonically degreased by alkaline degreasing liquid, then activated by pickling, and then cleaned.

[0028] 2. Add water to dissolve sodium citrate and sodium acetate, add water to dissolve the nickel sulfate in the formula, then mix and stir these two solutions, record this mixed solution as (a) here. Dissolve the sodium hypophosphite with an appropriate amount of water, then slowly pour it into the solution of (a) while stirring, and stir evenly; add distilled water or deionized water to the specified volume. The pH of the solution was adjusted to 9.5 with 5% sodium hydroxide and filtered. Record the filtered solution as (b). Wherein, (b) solution contains nickel sulfate 28g / l, sodium hypophosphite 25g / l, sodium citrate 40g / l, sodium acetate 25g / l.

[0029] 3. Add water to dissolve sodium citrate and sodium acetate, add water to dissolve the nickel sulfate in the formula, then mix these two solutions and stir evenly, record this mixed sol...

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Abstract

The invention relates to a composite chemical nickel and phosphor plating method, characterized by comprising the following steps: 1) the pH value of the chemical nickel and phosphor plating solution containing nickel sulfate with the concentration being 26 to 30 g / l, sodium hypophosphite with the concentration being 23 to 27 g / l, sodium citrate with the concentration being 38 to 42 g / l and sodium acetate with the concentration being 23 to 27 g / l is adjusted to be 9 to 10, neodymium(III) sulfate octahydrate is mixed with the chemical nickel and phosphor plating solution uniformly at the addition amount is 0.4 to 0.8 g / l, the above solution is plated on the pretreated neodymium iron boron magnet under the effect of the ultrasonic wave for 10 to 60 minutes to obtain a nickel and phosphor plating layer with the crystal grain size of 5 to 8 nm; 2) the pH value of the chemical nickel and phosphor plating solution containing nickel sulfate with the concentration being 22 to 26 g / l, sodium hypophosphite with the concentration being 28 to 32 g / l, sodium citrate with the concentration being 43 to 47 g / l and sodium acetate with the concentration being 28 to 32 g / l is adjusted to be 4.2 to 5.6, the plated neodymium iron boron magnet in the step(1) is placed into the chemical nickel and phosphor plating solution in the step(2) for plating for 30 to 120 minutes, the amorphous nickel and phosphor plating layer is obtained. Compared with the prior art, the plating layer has high adhesion and good corrosion resistance, the thickness of the plating layer can be reduced and the loss of the magnetic property can be lowered.

Description

technical field [0001] The invention relates to the field of material surface protection, in particular to a composite electroless nickel-phosphorus plating method. Background technique [0002] Sintered NdFeB magnet is a rare earth permanent magnet material developed in the 1980s. Its appearance and development have greatly promoted industrial progress, and it has been more and more widely used in many fields of national economy such as electronic information and aerospace. Due to the structure and chemical characteristics of sintered NdFeB, its corrosion resistance is poor, and its surface must be protected. [0003] At present, the surface protection of NdFeB usually adopts electroplating process, which has problems such as insufficient protection level, poor protection efficiency for deep hole parts and special-shaped workpieces, and high environmental protection treatment costs. At the same time, international environmental protection standards for electroplating produ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C23C18/36
Inventor 宋振纶应华根杨恒修吴浩杰李建忠
Owner NINGBO INST OF MATERIALS TECH & ENG CHINESE ACADEMY OF SCI
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