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Nickel-tungsten graphene oxide (GO) composite plating solution, plated film and preparation method thereof

A graphene composite and composite plating solution technology, applied in the direction of electrolytic coatings, coatings, etc., can solve problems such as localized corrosion, large residual internal stress of the coating film, and affect the mechanical properties of the film layer, so as to achieve good mechanical properties and improve various properties , Improve the effect of various performance

Inactive Publication Date: 2015-06-24
SOUTHWEST PETROLEUM UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] When the traditional electroplating process is used to prepare Ni-W coatings, the current efficiency is low, the deposition rate is slow, the hydrogen evolution is serious, and the electrochemical active sites are few, which leads to the residual internal stress of the coating formed during the deposition process, coarse crystal grains, and crystal grains. Defects such as obvious boundary, coating surface dew point and micro cracks
These defects will firstly induce severe localized corrosion in the practical application of Ni-W coating, which will affect the mechanical properties of the film, thereby reducing the service life of Ni-W coating.

Method used

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  • Nickel-tungsten graphene oxide (GO) composite plating solution, plated film and preparation method thereof
  • Nickel-tungsten graphene oxide (GO) composite plating solution, plated film and preparation method thereof
  • Nickel-tungsten graphene oxide (GO) composite plating solution, plated film and preparation method thereof

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Experimental program
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Effect test

Embodiment 1

[0023] Nickel-tungsten graphene oxide composite plating solution of the present invention is made up of following composition:

[0024]

[0025]

[0026] Utilize composite plating solution of the present invention to prepare the method for nickel-tungsten graphene oxide composite coating film as follows:

[0027] First, the steel sheet is polished with sandpaper, then ultrasonically cleaned, degreased, ultrasonically cleaned again, then pickled and activated, then pulse electroplated, cleaned after electroplating, and the finished product is obtained after post-processing; process parameters in the process of pulse electroplating For: the current density is 5A / dm 2 , the pH value is 8.5, the time is 40min, the temperature is 75°C, the power is 100HZ, and the duty cycle is 0.8.

Embodiment 2

[0029] Nickel-tungsten graphene oxide composite plating solution of the present invention is made up of following composition:

[0030]

[0031]

[0032] Utilize composite plating solution of the present invention to prepare the method for nickel-tungsten graphene oxide composite coating film as follows:

[0033] First, the steel sheet is polished with sandpaper, then ultrasonically cleaned, degreased, ultrasonically cleaned again, then pickled and activated, then pulse electroplated, cleaned after electroplating, and the finished product is obtained after post-processing; process parameters in the process of pulse electroplating For: the current density is 10A / dm 2 , the pH value is 7.5, the time is 60min, the temperature is 65°C, the power is 1000HZ, and the duty cycle is 0.3.

Embodiment 3

[0035] Nickel-tungsten graphene oxide composite plating solution of the present invention is made up of following composition:

[0036]

[0037] Utilize composite plating solution of the present invention to prepare the method for nickel-tungsten graphene oxide composite coating film as follows:

[0038] First, the steel sheet is polished with sandpaper, then ultrasonically cleaned, degreased, ultrasonically cleaned again, then pickled and activated, then pulse electroplated, cleaned after electroplating, and finished products are obtained after post-processing; process parameters in the process of pulse electroplating For: the current density is 8A / dm 2 , the pH value is 8.0, the time is 50min, the temperature is 70°C, the power is 500HZ, and the duty cycle is 0.5.

[0039] The surface morphology of the coatings was observed with a JSM-7500F scanning electron microscope (SEM).

[0040] The element composition and content of the composite coating were analyzed and tested ...

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Abstract

The invention discloses a nickel-tungsten graphene oxide (GO) composite plating solution, a plated film and a preparation method thereof. According to the plating solution, GO which has good mechanical properties and can be effectively dispersed is introduced into the plating solution and is effectively deposited and dispersed in a Ni-W matrix during electroplating. A Ni-W-GO composite plated film is successfully prepared on a carbon steel base body by a pulse electroplating codeposition method. Graphene oxide is dispersed in the Ni-W matrix, so that the coefficient of friction is effectively lowered. The competitive relation between crystal nucleation and growth is effectively changed during codeposition, so that the structure of the plated film is improved, a deposited film layer can become more uniform and denser, intercrystalline corrosion is weakened, the diffusion path of a corrosive medium is prolonged, the self-corrosion potential is increased, local corrosion is effectively inhibited, the stability of a passivation film is improved, and thus, the corrosion resistance of the composite plated film is improved.

Description

technical field [0001] The invention relates to the technical field of electroplating, in particular to a nickel-tungsten graphene oxide composite plating solution, a coating film and a preparation method thereof. Background technique [0002] At present, the method for preparing Ni-W coating is mainly the traditional Ni-W coating electroplating process, and the main plating solution composition and process parameters are shown in Table 1: [0003] Table 1 [0004] [0005] The Ni-W coating preparation process is: sanding → ultrasonic cleaning → degreasing → ultrasonic cleaning → pickling activation → pulse plating → cleaning → post-processing → finished product. [0006] When the traditional electroplating process is used to prepare Ni-W coatings, the current efficiency is low, the deposition rate is slow, the hydrogen evolution is serious, and the electrochemical active sites are few, which leads to the residual internal stress of the coating formed during the depositi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C25D3/56C25D15/00C25D5/18
CPCC25D3/56C25D3/562C25D5/18C25D15/00
Inventor 何毅范毅施太和罗平亚李函
Owner SOUTHWEST PETROLEUM UNIV
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