A rare earth-nickel-cobalt-tungsten disulfide multi-element alloy anti-corrosion and wear-resistant composite coating, electroplating solution and preparation method thereof

A tungsten disulfide and multi-alloy technology, applied in the field of metal surface treatment, can solve the problems of loss of corrosion resistance, inability to obtain a thick coating, easy to produce cracks, etc., and achieve the effect of strong coating thickness, bright appearance and easy operation.

Active Publication Date: 2017-10-13
上海荟金纳米材料有限公司
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Problems solved by technology

[0004] One of the objectives of the present invention is to provide a rare earth-nickel-cobalt-tungsten disulfide multi-element alloy anti-corrosion and wear-resistant composite coating, electroplating solution and preparation method thereof, so as to solve the problem of low hardness and high internal stress of the coating obtained by the existing electroplating process. High brittleness, easy to produce cracks when plating thick, lose corrosion resistance, and some problems even cannot obtain thick plating

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  • A rare earth-nickel-cobalt-tungsten disulfide multi-element alloy anti-corrosion and wear-resistant composite coating, electroplating solution and preparation method thereof
  • A rare earth-nickel-cobalt-tungsten disulfide multi-element alloy anti-corrosion and wear-resistant composite coating, electroplating solution and preparation method thereof
  • A rare earth-nickel-cobalt-tungsten disulfide multi-element alloy anti-corrosion and wear-resistant composite coating, electroplating solution and preparation method thereof

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preparation example Construction

[0044] The present invention also provides a preparation method of a rare earth-nickel-cobalt-tungsten disulfide multi-element alloy anti-corrosion and wear-resistant composite electroplating solution, comprising the following steps:

[0045] S1: Heat deionized water to 50-60°C, add 260-400g nickel sulfate, 10-75g cobalt sulfate, 30-50g nickel chloride, 35-55g boric acid, 0.1-28g rare earth, stir well until completely dissolved to obtain the first a solution;

[0046] S2: Add 1-35 g of sodium borohydride, 2-20 g of triethylenetetramine, 5-40 g of citric acid, and 5-20 g of malonic acid to the first solution obtained in the previous step, and stir thoroughly to obtain a second solution;

[0047] S3: Adjust the pH value of the second solution obtained in the previous step to 4.5-5.0, then add 0.01-4.9g of tungsten disulfide, and add deionized water to 1L to prepare a rare earth-nickel-cobalt-tungsten disulfide Electroplating solution for multi-element alloy anti-corrosion and w...

Embodiment 1

[0051] Heat 650ml of deionized water to 50-60°C, add 260g of nickel sulfate, 25g of cobalt sulfate, 35g of nickel chloride, 35g of boric acid, and 8g of rare earth chloride, and stir until completely dissolved to obtain solution (1); Add 10 g of sodium borohydride, 10 g of triethylenetetramine, 15 g of citric acid, and 5 g of malonic acid in sequence in (1), and fully stir to obtain solution (2); use ammonia water or dilute sulfuric acid to adjust the pH value of the resulting solution (2) 4.5-5.0, add 2g of tungsten disulfide under constant stirring. Add deionized water to 1L to prepare a rare earth-nickel-cobalt-tungsten disulfide multi-alloy anti-corrosion and wear-resistant composite coating electroplating solution.

[0052] Plating method:

[0053] (1) Plating preparation: cold-rolled carbon steel plate 50*50*1.5mm, pretreatment process: manual sandpaper rust removal—water washing—alkaline degreasing—water washing—acid activation—deionized water cleaning;

[0054] (2) I...

Embodiment 2

[0067] Heat 650ml of deionized water to 50-60°C, add 300g of nickel sulfate, 35g of cobalt sulfate, 35g of nickel chloride, 40g of boric acid, and 12g of rare earth chloride, and stir until completely dissolved to obtain solution (1); Add sodium borohydride 18g, triethylenetetramine 15g, citric acid 15g, malonic acid 10g successively in (1), fully stir to obtain solution (2); adjust the pH value of gained solution (2) with ammonia water or dilute sulfuric acid 4.5-5.0, add 3.5g tungsten disulfide under constant stirring. Add deionized water to 1L to prepare a rare earth-nickel-cobalt-tungsten disulfide multi-alloy anti-corrosion and wear-resistant composite coating electroplating solution.

[0068] Plating according to the method identical with embodiment 1, after testing, cobalt content is 26wt% in the coating, rare earth 3.2wt%, tungsten disulfide 2.8wt%; Surplus is nickel; Plating state hardness is HV840; Other test results and Embodiment 1 is basically the same.

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Abstract

The invention discloses a rare earth-nickel-cobalt-tungsten disulfide multi-element alloy anti-corrosion and wear-resisting composite plating layer and electroplating solution and a preparation method of the electroplating solution. The plating layer is of a particle structure with an intermetallic compound and nanometer tungsten disulfide dispersed on a nanocrystalline matrix. The plating-state microhardness of the plating layer ranges from HV 700 to HV 1,200. The plating layer is prepared from, by weight, 1%-55% of cobalt, 0.5%-12% of rare earth, 0.1%-5% of tungsten disulfide and the balance nickel. The electroplating solution is prepared from 260 g / L-400 g / L of nickel sulfate, 10 g / L-75 g / L of cobalt sulfate, 30 g / L-50 g / L of nickel chloride, 35 g / L-55 g / L of boric acid, 0.1 g / L-28 g / L of rare earth, 1 g / L-35 g / L of sodium borohydride, 2 g / L-20 g / L of triethylene tetramine, 5 g / L-40 g / L of citric acid, 5 g / L-20 g / L of malonic acid and 0.01 g / L-4.9 g / L of tungsten disulfide. The appearance of the plating layer is bright, smooth, free of cracks and compact, and meanwhile the plating layer is high in plating-state hardness, small in internal stress, high in thickness plating capacity and good in anti-corrosion and wear-resisting performance and has good comprehensive mechanical performance; meanwhile, the electroplating solution and the plating layer are simple in preparation method, and operation is easy; and adopted materials are friendly to environment, production efficiency is high, and energy saving and environment protection are achieved.

Description

technical field [0001] The invention relates to the technical field of metal surface treatment, in particular to a rare earth-nickel-cobalt-tungsten disulfide multi-element alloy anti-corrosion and wear-resistant composite coating, an electroplating solution and a preparation method thereof. Background technique [0002] At present, with the increasing awareness of environmental protection in all countries in the world, the traditional hexavalent chromium electroplating process has serious environmental pollution and serious harm to the human body, as well as high energy consumption, low production efficiency, and difficult disposal of electroplating waste. Defects such as high cost are gradually being restricted or banned by more and more countries. The United States, the European Union and other countries have strictly prohibited the use of hexavalent chromium plating process. Some areas of our country have also formulated relevant regulations, such as Tianjin City, which...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C25D3/56C25D15/00
CPCC25D3/56C25D15/00
Inventor 黄激扬张国芳
Owner 上海荟金纳米材料有限公司
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