Rare earth-zinc-nickel multi-element alloy anti-corrosion anti-fatigue electroplating liquid for metal surface as well as preparation method of electroplating liquid

A metal surface, multi-alloy technology, applied in the field of rare earth-zinc-nickel multi-alloy anti-corrosion and anti-fatigue electroplating solution and its preparation, can solve the problems of changing the metal surface properties, unsuitable for railway fasteners, etc. Very low porosity and good binding effect

Inactive Publication Date: 2019-01-08
辽宁华铁科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Chemical heat treatment such as carburizing or carbonitriding on the surface of the workpiece can increase the fatigue resistance of the workpiece, but heat treatment is required, and the performance of the metal surface will be changed after high temperature, so it is not suitable for railway fasteners.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0037] Weigh raw materials:

[0038] Nickel chloride 120g;

[0039] Zinc chloride 65g;

[0040] Ammonium chloride 30g;

[0041] KCl 180g;

[0042] Boric acid 30g;

[0043] Cerium nitrate 0.002-1g;

[0044] Benzylideneacetone 0.2g;

[0045] O-chlorobenzaldehyde 0.2g;

[0046] Sodium benzoate 2g;

[0047] Sodium benzenesulfonate 1g;

[0048] Butynediol 0.1g;

[0049] Sulfonated OP-10 6mL;

[0050] Sodium lauryl sulfate 0.05g;

[0051] Polyethylene polyamine 2g;

[0052] The specific steps are as follows:

[0053] (1) Heat 500mL deionized water to 50°C, add zinc chloride, nickel chloride, boric acid, ammonium chloride and KCl, and stir until completely dissolved to obtain a mixed solution A;

[0054] (2) Use 10wt% dilute ammonia water or 10wt% dilute hydrochloric acid to adjust the pH of the mixed solution A to 4, add sodium benzenesulfonate and sodium benzoate, and fully stir to prepare the mixed solution B;

[0055] (3) Get cerium nitrate and add in the mixed solu...

Embodiment 2

[0070] Weigh raw materials:

[0071] Nickel chloride 80g;

[0072] Zinc chloride 100g;

[0073] Ammonium chloride 10g;

[0074] KCl 200g;

[0075] Boric acid 30g;

[0076] Cerium nitrate 1g;

[0077] Benzylideneacetone 0.1g;

[0078] 0.5g o-chlorobenzaldehyde;

[0079] Sodium Benzoate 0.5g;

[0080] Sodium benzenesulfonate 2g;

[0081] Butynediol 0.05g;

[0082] Sulfonated OP-10 10mL;

[0083] Sodium lauryl sulfate 0.01g;

[0084] Polyethylene polyamine 5g;

[0085] The specific steps are as follows:

[0086] (1) Heat 500mL deionized water to 50°C, add zinc chloride, nickel chloride, boric acid, ammonium chloride and KCl, and stir until completely dissolved to obtain a mixed solution A;

[0087] (2) Use 10wt% dilute ammonia water or 10wt% dilute hydrochloric acid to adjust the pH of the mixed solution A to 3, add sodium benzenesulfonate and sodium benzoate, and fully stir to prepare the mixed solution B;

[0088] (3) Get cerium nitrate and add in the mixed soluti...

Embodiment 3

[0093] Weigh raw materials:

[0094] Nickel chloride 150g;

[0095] Zinc chloride 50g;

[0096] Ammonium chloride 50g;

[0097] KCl 150g;

[0098] Boric acid 50g;

[0099] Cerium nitrate 0.002g;

[0100] Benzylideneacetone 0.3g;

[0101] O-chlorobenzaldehyde 0.05g;

[0102] Sodium benzoate 3g;

[0103] Sodium propargyl sulfonate 0.5g;

[0104] Butynediol 1g;

[0105] Sulfonated OP-10 4mL;

[0106] Sodium lauryl sulfate 0.1g;

[0107] Polyethyleneimine 1g;

[0108] The specific steps are as follows:

[0109] (1) Heat 500mL deionized water to 50°C, add zinc chloride, nickel chloride, boric acid, ammonium chloride and KCl, and stir until completely dissolved to obtain a mixed solution A;

[0110] (2) Adjust the pH of the mixed solution A to 5 with 10wt% dilute ammonia water or 10wt% dilute hydrochloric acid, add sodium propargyl sulfonate and sodium benzoate, and fully stir to prepare the mixed solution B;

[0111] (3) Get cerium nitrate and add in the mixed solutio...

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Abstract

The invention relates to rare earth-zinc-nickel multi-element alloy anti-corrosion anti-fatigue electroplating liquid for a metal surface as well as a preparation method of the electroplating liquid.The method comprises the following steps: heating deionized water, adding zinc chloride, nickel chloride, boric acid, ammonium chloride and KCl, completely stirring until the materials are completelydissolved, adjusting pH, adding sodium benzenesulfonate or propargyl sodium sulfonate, and sodium benzoate, completely stirring, adding rare earth nitrate and completely stirring to prepare a mixed solution C; taking benzalacetone, o-chlorobenzaldehyde, butynediol, sulfonic acid-OP-10 and sodium lauryl sulfate, adding water and stirring to obtain a mixed solution D; adding polyethylene polyamine or polyethyleneimine into a mixed solution C, and adjusting the pH by using weak aqua ammonia or dilute hydrochloric acid to obtain a mixed solution E; mixing the mixed solution D and the mixed solution E and adding deionized water to a constant volume to obtain electroplating liquid. The rare earth-zinc-nickel multi-element alloy anti-corrosion anti-fatigue electroplating liquid for the metal surface as well as the preparation method thereof have the following advantages: the preparation method of the electroplating liquid is simple to operate, and higher corrosion resistance and fatigue resistance can be given to the metal surface.

Description

technical field [0001] The invention relates to a rare earth-zinc-nickel multi-element alloy anti-corrosion and anti-fatigue electroplating solution for metal surfaces and a preparation method thereof, in particular to a rare earth-zinc-nickel multi-element alloy anti-corrosion and anti-fatigue used for railway fasteners made of metal surface materials. Fatigue electroplating solution and preparation method thereof. Background technique [0002] The railway fastener is the connecting piece between the rail and the sleeper. Its function is to fix the correct position of the rail, prevent the longitudinal and lateral displacement of the rail, and prevent the rail from tipping over. The spring bar is one of the most important accessories in the fastener system. It mainly uses the energy stored during elastic deformation to alleviate mechanical vibration and impact. my country's railway fastener components such as elastic bars are generally made of spring steel, which must with...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C25D3/56
CPCC25D3/565
Inventor 庞强单凤君张国芳盛远张帅
Owner 辽宁华铁科技有限公司
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