CN1807682A

CN1807682A - Electroless nickel-phosphorus plating process for Nd-Fe-Bo permanent magnet material

Info

Publication number: CN1807682A
Application number: CN 200610038145
Authority: CN
Inventors: 鲁国强
Original assignee: Individual
Current assignee: Individual
Priority date: 2006-01-26
Filing date: 2006-01-26
Publication date: 2006-07-26
Anticipated expiration: 2026-01-26
Also published as: CN100402698C

Abstract

The invention discloses a chemical plating nickel plating method of neodymium-iron- boron permanent magnet material, which is characterized by the following: adopting plugging chemical plating to plug neodymium-iron-boron and thick and block-up neutral chemical plating; carrying on chemical plating nickel phosphor method of acidic high-phosphorus chemical plating, wherein the method comprises the following steps: tumbling; chamfering; degreasing; derusting; activating; plugging chemical plating; neutering chemical plating; acidifying high-phosphorus chemical plating; inactivating. The invention simplifies the application of industry, which reduces cost of production.

Description

A kind of chemical nickel and phosphor plating method of Nd-Fe-Bo permanent magnet material

Technical field

The present invention relates to the chemical conversion treatment field that the powder metallurgy material reaches corrosion susceptible materials in acid-base solution, specifically the chemical nickel and phosphor plating method of Nd-Fe-Bo permanent magnet material.

Background technology

Nd-Fe-B permanent magnet is the strongest permanent magnet material of present magnetic, has excellent properties and higher performance such as high energy product, high-coercive force, high remanent magnetism, and becomes the critical function material in the Modern High-Tech field.But because lanthanide series metal Nd is very active in damp atmosphere and acid-basicity solution, easily oxidized and corrosion, the powder metallurgy sintering process makes material surface have many micropores simultaneously, cause its surface to be difficult to handle and make its solidity to corrosion poor, the magnetic performance of permanent magnet is reduced greatly, have a strong impact on the application of permanent magnet.In the prior art, adopt technology such as organic coat method, plating and electroless plating for the surface treatment of NdFeB material more, obtained some effects, still have solidity to corrosion difference problem.Generally adopt chemical nickel plating coating in the world or electroplate the ambrose alloy nickel composite deposite as protective layer, wherein chemical nickel plating coating porosity is big, and anticorrosion effect is poor, has problems such as quality of coating instability in uneven thickness and contaminate environment and electroplate.Have report to adopt ultrasonic electroless deposition technique, neutral acid compound plating effect pretty good, but do not see industrial application, the ultrasonic electroless deposition technique industrial equipments is difficult to realize that neutral acid compound plating can't resolve the micropore problem of permanent magnet.

Summary of the invention

The objective of the invention is for the powder metallurgy material and in acid-base solution corrosion susceptible materials a kind of coating imporosity, the chemical nickel and phosphor plating method that thickness is even and solidity to corrosion is strong are provided.To achieve these goals, technical scheme of the present invention is to adopt the sealing of hole electroless plating to neodymium iron boron sealing of hole and neutral electroless plating thickening blocking-up, carries out the chemical nickel and phosphor plating method of acid high phosphorus chemical plating again.Comprise steps such as tumbling chamfering, oil removing, rust cleaning, activation, sealing of hole electroless plating, neutral electroless plating, acid high phosphorus chemical plating, passivation, specific as follows:

1. tumbling chamfering

Adopt vibration mill, drum-type shredder, centrifugal grinding, the NdFeB material of different size and abrasive material (brown corundum) are inserted carry out the tumbling chamfering in the shredder.

2. oil removing

Adopt the oil removing of ultrasonic wave alkali lye: under the ultrasonic wave state, carry out the alkali lye oil removing, alkali lye pH value is 8～10.5, and the alkali lye prescription is as follows:

Tertiary sodium phosphate Na ₃PO ₄12H ₂O:10～30g/l;

Yellow soda ash Na ₂Co ₃: 5～20g/l;

Emulsifier op-10: 1～5g/l;

Alkali liquid temperature is 50～80 ℃, adopts ultrasonic wave simultaneously, and ultrasonic frequency is that 20～80kHz, power are 50～500w, and the treatment time is 5～10 minutes;

3. rust cleaning

Adopt 1～3% HNO ₃+ 0～1g/l thiocarbamide carries out pickling, and the time is 10～40 seconds; Temperature is a room temperature.

4. activation

Adopt citric acid 5～30g/l, Neutral ammonium fluoride 5～40g/l, temperature: room temperature, time: 5～20 seconds;

5. sealing of hole electroless plating

As reductive agent, single nickel salt adds complexing agent, low temperature accelerator as main salt to plating bath with inferior sodium phosphate, and the prescription of plating bath is as follows:

Single nickel salt NiSO ₄6H ₂O:20～30g/l;

Inferior sodium phosphate NaH ₂PO ₂H ₂O:10～30g/l;

Sodium-acetate NaAC3H ₂O:10～25g/l;

Glycine NH ₂CH ₂COOH:1～10g/l;

Trisodium Citrate Na ₃C ₆H ₅O ₇2H ₂O:5～20g/l;

Neutral ammonium fluoride NH ₄F 10～40g/l;

PH:6.5～8.5,50～70 ℃ of temperature, 1～15 minute time, plating speed is 10～30 μ m/ hours;

6. neutral electroless plating

Electroplate liquid formulation is as follows:

Single nickel salt NiSO ₄6H ₂O:20～30g/l;

Inferior sodium phosphate NaH ₂PO ₂H ₂O:10～30g/l;

Sodium-acetate NaAC3H ₂O:10～20g/l;

Trisodium Citrate Na ₃C ₆H ₅O ₇2H ₂O:5～20g/l;

Lactic acid CH ₃CHOCOOH:5～25ml/l;

Lead acetate (Pb ²⁺): 1～5mg/l;

Thiocarbamide H ₂NCSNH ₂: 1～5mg/l;

Temperature: 60～80 ℃, pH:6.5～7.5,15～40 minutes time; 12～20 μ m/ hours;

7. acid high phosphorus chemical plating

Electroplate liquid formulation is as follows:

Single nickel salt NiSO ₄6H ₂O:20～30g/l;

Inferior sodium phosphate NaH ₂PO ₂H ₂O:20～40g/l;

Sodium-acetate NaAC3H ₂O:10～30g/l;

Lactic acid CH ₃CHOCOOH:5～25ml/l;

DL-oxysuccinic acid CHOHCH ₂(COOH) ₂: 5～25g/l;

Trisodium Citrate Na ₃C ₆H ₅O ₇2H ₂O:2～20g/l;

Succinic Acid (CH ₂COOH) ₂: 5～20g/l;

Lead acetate (Pb ²⁺): 1～5mg/l;

Thiocarbamide H ₂NCSNH ₂: 1～5mg/l;

Temperature: 80～90 ℃, pH:4.4～4.8,40～60 minutes time; 12～16 μ m/ hours;

8. passivation

Adopt CrO ₃Carry out Passivation Treatment, processing parameter:

CrO ₃: 1～10g/l, temperature: 70～85 ℃, time: 10～20 minutes

The chemical nickel and phosphor plating method of Nd-Fe-Bo permanent magnet material of the present invention utilizes three-dimensional chemical nickel phosphorus plating method layering time, even compact at matrix surface plating one deck from inside to outside, imporous nickel-phosphorus coating step by step.The preplating in the hole of neodymium iron boron of sealing of hole electroless plating elder generation plays the sealing of hole effect, neutral electroless plating is thickeied the effect of having blocked the sealing hole to hole and surface, make nickel-phosphorus coating matrix surface plating one deck even compact, low hole, matrix is played blocking effect, then, carry out the solidity to corrosion that acid high phosphorus chemical plating further improves coating again, play protective effect better matrix.

Beneficial effect of the present invention is as follows:

Coating imporosity thickness evenly and the matrix hole all by plating, thereby improved the corrosion resisting property of Nd-Fe-Bo permanent magnet material, avoided not caused coating bulge, skin effect phenomenon by plating because of the matrix hole.Sealing of hole electroless plating prescription, neutral electroless plating prescription, the acid high phosphorus chemical plating prescription of the application of the invention development adopt chemical nickel and phosphor plating method, play the protective effect to matrix better.

2. the present invention is when the nickel-phosphorus coating thickness of matrix surface formation reaches 25～30 microns, and damp and hot, High-Voltage Experimentation is more than 500 hours, and salt mist experiment is more than 200 hours.

The present invention realizes that industrial application is simple, and production cost is low, and product price ratio height can satisfy the demand for exports of domestic neodymium iron boron manufacturing enterprise, the problem in the reasonable solution actual production greatly.

Embodiment

Be described in further detail the present invention below by embodiment.

1. tumbling chamfering

Adopt vibration mill, NdFeB material and abrasive material (brown corundum) are inserted carry out the tumbling chamfering in the shredder.

2. oil removing

Adopt the oil removing of ultrasonic wave alkali lye.Under the ultrasonic wave state, carry out the alkali lye oil removing, alkali lye pH value is 10.5, the alkali lye prescription is as follows:

Tertiary sodium phosphate Na ₃PO ₄12H ₂O:25g/l;

Yellow soda ash Na ₂CO ₃: 15g/l;

Emulsifier op-10: 1g/l;

Alkali liquid temperature is 50～80 ℃, adopts ultrasonic wave simultaneously, and ultrasonic frequency is that 40kHz, power are 500w, and the treatment time is 10 minutes;

3. rust cleaning

Adopt 2% HNO ₃+ 0.25g/l thiocarbamide carries out pickling, and the time is 30 seconds; Temperature is a room temperature.

4. activation

Adopt citric acid 15g/l, Neutral ammonium fluoride 10g/l, temperature: room temperature, time: 15 seconds;

5. sealing of hole electroless plating

Single nickel salt NiSO ₄6H ₂O:25g/l;

Inferior sodium phosphate NaH ₂PO ₂H ₂O:25g/l;

Sodium-acetate NaAC3H ₂O:12g/l;

Glycine NH ₂CH ₂COOH:2g/l;

Trisodium Citrate Na ₃C ₆H ₅O ₇2H ₂O:12g/l;

Neutral ammonium fluoride NH ₄F 15g/l.

PH:7,65 ℃ of temperature, 10 minutes time, plating speed is 20 μ m/ hours;

6. neutral electroless plating electroplate liquid formulation is as follows:

Single nickel salt NiSO ₄6H ₂O:25g/l;

Inferior sodium phosphate NaH ₂PO ₂H ₂O:20g/l;

Sodium-acetate NaAC3H ₂O:10g/l;

Trisodium Citrate Na ₃C ₆H ₅O ₇2H ₂O:12g/l;

Lactic acid CH ₃CHOCOOH:25ml/l;

Lead acetate (Pb ²⁺): 1mg/l,

Thiocarbamide H ₂NCSNH ₂: 1mg/l;

Temperature: 78 ℃, pH:6.5,30 minutes time; 15 μ m/ hours;

7. acid high phosphorus chemical plating

Single nickel salt NiSO ₄6H ₂O:27g/l;

Inferior sodium phosphate NaH ₂PO ₂H ₂O:30g/l;

Sodium-acetate NaAC3H ₂O:20g/l;

Lactic acid CH ₃CHOCOOH:20ml/l;

DL-oxysuccinic acid CHOHCH ₂(COOH) ₂: 12g/l;

Trisodium Citrate Na ₃C ₆H ₅O ₇2H ₂O:5g/l;

Succinic Acid (CH ₂COOH) ₂: 8g/l;

Lead acetate (Pb ²⁺): 1mg/l,

Thiocarbamide H ₂NCSNH ₂: 1mg/l;

Temperature: 88 ℃, pH:4.4～4.8,90 minutes time; 15 μ m/ hours;

8. passivation

Adopt CrO ₃Carry out Passivation Treatment, processing parameter:

CrO ₃: 3g/l, temperature: 70 ℃, time: 10 minutes

Relevant comparison sheet 1

Chemical plating method	Salt mist experiment	Damp and hot experiment	The magnetic loss rate	Outward appearance
Chemical plating method	Salt mist experiment	Damp and hot experiment	The magnetic loss rate	Outward appearance	Acidic bath	48 hours	172 hours	10～15％	Gloomy
Alkali plating solution	96 hours	720 hours	5～10％	Bright	Acidic bath	48 hours	172 hours	10～15％	Gloomy
Alkali plating solution	96 hours	720 hours	5～10％	Bright	Neutral plating bath	140 hours	960 hours	1～3％	Bright
The present invention	280 hours	1000 hours	1～3％	Light	Neutral plating bath	140 hours	960 hours	1～3％	Bright

Claims

1, a kind of chemical nickel and phosphor plating method of Nd-Fe-Bo permanent magnet material, its method is: Nd-Fe-B permanent magnet is to be formed by the mmaterial sintering, surface irregularity has very high porosity and very easily corrosion in acidity, basic solution; Adopt the sealing of hole electroless plating to neodymium iron boron sealing of hole and neutral electroless plating thickening blocking-up, carry out the chemical nickel and phosphor plating method of acid high phosphorus chemical plating again; Comprise steps such as tumbling chamfering, oil removing, rust cleaning, activation, sealing of hole electroless plating, neutral electroless plating, acid high phosphorus chemical plating, passivation, technological process is as follows:

1) tumbling chamfering

Adopt vibration mill, drum-type shredder, centrifugal grinding, the NdFeB material of different size and abrasive material (brown corundum) are inserted carry out the tumbling chamfering in the shredder;

2) oil removing

Tertiary sodium phosphate Na ₃PO ₄12H ₂O:10～30g/l;

Yellow soda ash Na ₂Co ₃: 5～20g/l;

Emulsifier op-10: 1～5g/l;

3) rust cleaning

Adopt 1～3% HNO ₃+ 0～1g/l thiocarbamide carries out pickling, and the time is 10～40 seconds; Temperature is a room temperature;

4) activation

5) sealing of hole electroless plating

Single nickel salt NiSO ₄6H ₂O:20～30g/l;

Inferior sodium phosphate NaH ₂PO ₂H ₂O:10～30g/l;

Sodium-acetate NaAC3H ₂O:10～25g/l;

Glycine NH ₂CH ₂COOH:1～10g/l;

Trisodium Citrate Na ₃C ₆H ₅O ₇2H ₂O:5～20g/l;

Neutral ammonium fluoride NH ₄F 10～40g/l;

6) neutral electroless plating

Electroplate liquid formulation is as follows:

Single nickel salt NiSO ₄6H ₂O:20～30g/l;

Inferior sodium phosphate NaH ₂PO ₂H ₂O:10～30g/l;

Sodium-acetate NaAC3H ₂O:10～20g/l;

Trisodium Citrate Na ₃C ₆H ₅O ₇2H ₂O:5～20g/l;

Lactic acid CH ₃CHOCOOH:5～25ml/l;

Lead acetate (Pb ²⁺): 1～5mg/l;

Thiocarbamide H ₂NCSNH ₂: 1～5mg/l;

7) acid high phosphorus chemical plating

Electroplate liquid formulation is as follows:

Single nickel salt NiSO ₄6H ₂O:20～30g/l;

Inferior sodium phosphate NaH ₂PO ₂H ₂O:20～40g/l;

Sodium-acetate NaAC3H ₂O:10～30g/l;

Lactic acid CH ₃CHOCOOH:5～25ml/l;

DL-oxysuccinic acid CHOHCH ₂(COOH) ₂: 5～25g/l;

Trisodium Citrate Na ₃C ₆H ₅O ₇2H ₂O:2～20g/l;

Succinic Acid (CH ₂COOH) ₂: 5～20g/l;

Lead acetate (Pb ²⁺): 1～5mg/l;

Thiocarbamide H ₂NCSNH ₂: 1～5mg/l;

8) passivation

Adopt CrO ₃Carry out Passivation Treatment, processing parameter:

CrO ₃: 1～10g/l, temperature: 70～85 ℃, time: 10～20 minutes.