Composite electroforming preparing process for nano silicon carbide particle reinforced nickel base composite material

A technology of nano-silicon carbide and particle reinforcement, which is applied in the direction of electroforming, electrolytic coating, electrolytic process, etc., to achieve the effect of smooth material surface, good physical and mechanical properties, and low cost

Inactive Publication Date: 2007-09-12
SHANGHAI JIAOTONG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The purpose of the present invention is to address the deficiencies in the prior art, to propose a composite electroforming preparation method for nano-silicon carbide particle-reinforced nickel-based composite materials, combined with the principle of composite electrodeposition and electroforming technology, the cost is relatively low, and the operating temperature is low. In the case of high concentration, the nickel-based composite material with uniform distribution of nanoparticles, larger overall thickness than ordinary electroplating coating, high hardness, high strength and high ductility can be prepared, which can be used alone as a functional structural material

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0009] The anode material is an electrolytic nickel block, and a stainless steel sheet is selected as the cathode deposition body. The composition of nickel sulfamate electroforming plating solution is: nickel sulfamate (Ni(NH 2 SO 3 ) 2 4H 2 O): 300g / L; nickel chloride (NiCl 2 ·6H 2 O): 5g / L; boric acid (H 3 BO 3 ): 40g / L. The particle size of silicon carbide particles is 50nm, and the addition amount in the electroforming bath is 35g / L. The co-deposition accelerator component is hexadecyl ammonium bromide, and the addition amount in the electroforming bath is 2.0g / L . Adjust process parameters: cathode current density is 8A / dm 2 ; The bath temperature is 55° C.; the stirring frequency is 60 rpm.

[0010] First dissolve the co-deposition accelerator in distilled water, then put the nano-silicon carbide particles into it for infiltration and perform ultrasonic stirring and manual stirring to break up the agglomerated nano-silicon carbide particles and make them more ...

Embodiment 2

[0014] The anode material is an electrolytic nickel block, and a stainless steel sheet is selected as the cathode deposition body. The composition of nickel sulfamate electroforming plating solution is: nickel sulfamate (Ni(NH 2 SO 3 ) 2 4H 2 O): 350g / L; nickel chloride (NiCl 2 ·6H 2 O): 10g / L; boric acid (H 3 BO 3 ): 45g / L. The particle size of silicon carbide particles is 20nm, and the addition amount in the electroforming bath is 35g / L. The co-deposition accelerator component is hexadecyl ammonium bromide, and the addition amount in the electroforming bath is 2.0g / L . Adjust process parameters: cathode current density is 12A / dm 2 ; The bath temperature is 65° C.; the stirring frequency is 55 rpm.

[0015] First dissolve the co-deposition accelerator in distilled water, then put the nano-silicon carbide particles into it for infiltration and perform ultrasonic stirring and manual stirring to break up the agglomerated nano-silicon carbide particles and make them mor...

Embodiment 3

[0018] The anode material is an electrolytic nickel block, and a stainless steel sheet is selected as the cathode deposition body. The composition of nickel sulfamate electroforming plating solution is: nickel sulfamate (Ni(NH 2 SO 3 ) 2 4H 2 O): 380g / L; nickel chloride (NiCl 2 ·6H 2 O): 1Og / L; boric acid (H 3 BO 3 ): 45g / L. The particle size of silicon carbide particles is 20nm, and the addition amount in the electroforming bath is 50g / L. The co-deposition accelerator component is hexadecyl ammonium bromide, and the addition amount in the electroforming bath is 2.5g / L . Adjust process parameters: cathode current density is 20A / dm 2 ; The bath temperature is 65° C.; the stirring frequency is 60 rpm.

[0019] First dissolve the co-deposition accelerator in distilled water, then put the nano-silicon carbide particles into it for infiltration and perform ultrasonic stirring and manual stirring to break up the agglomerated nano-silicon carbide particles to make them more...

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Abstract

The composite electroforming process of preparing nanometer silicon carbide particle reinforced nickel base composite material has electrolytic nickel block as anode material, stainless steel sheet as cathode deposition body, silicon carbide particle of 10-50 nm as reinforcing particle and ammonium cetyl bromide as co-deposition promoter. Through mixing silicon carbide particle and co-deposition promoter solution through stirring, pouring the mixed solution into electroforming solution of nickel amino sulfonate, applying DC voltage while stirring the electroforming solution to make nickel ion and reinforcing particle deposit together onto the cathode mother body and stripping the composite electroformed layer, integrated nanometer silicon carbide particle reinforced nickel base composite material is produced. The produced composite material has high hardness, high strength, high ductibility and relatively great thickness, and may be used as functional structure material.

Description

technical field [0001] The invention relates to a method for preparing a nickel-based composite material, in particular to a method for preparing nickel-based composite materials reinforced with silicon carbide particles with nanoscale particle diameters by using a composite electroforming method, which belongs to the technical field of composite electroplating. Background technique [0002] Using composite electroplating technology to prepare silicon carbide particle-reinforced nickel-based composite materials can endow metallic nickel with higher hardness, better wear resistance, and corrosion resistance. It provides a great opportunity for changing or adjusting the mechanical, physical, and chemical properties of metallic nickel. Great possibilities and variety. However, composite electroplating technology is mainly for surface treatment. In most cases, only a layer of composite material is plated on the surface of parts. The required thickness is thinner. Compared with b...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C25D15/00C25D1/00
Inventor 胡文彬朱建华刘磊赵海军沈彬
Owner SHANGHAI JIAOTONG UNIV
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