CN103668193A - Four-element zinc-tin-nickel-iron electroplating technique of aluminum alloy plate - Google Patents

Four-element zinc-tin-nickel-iron electroplating technique of aluminum alloy plate Download PDF

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CN103668193A
CN103668193A CN201210328414.8A CN201210328414A CN103668193A CN 103668193 A CN103668193 A CN 103668193A CN 201210328414 A CN201210328414 A CN 201210328414A CN 103668193 A CN103668193 A CN 103668193A
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tin
zinc
alloy plate
acid
water
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周明华
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WUXI XINDAZHONG STEEL SHEET CO Ltd
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WUXI XINDAZHONG STEEL SHEET CO Ltd
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Abstract

The invention relates to a four-element zinc-tin-nickel-iron soaking iron electroplating technique of an aluminum alloy plate, which is characterized by comprising the following steps: (1) preparing an alkali solution, an acid solution, a zinc-tin-nickel-iron alloy soaking solution, a zinc removal solution, an iron plating solution and a tin plating solution; (2) removing oil; (3) washing with water for the first time; (4) etching with the alkali solution; (5) washing with water for the second time; (6) washing with acid; (7) washing with water for the third time; (8) soaking in the four-element zinc-tin-nickel-iron alloy solution for the first time; (9) removing zinc with nitric acid; (10) soaking in the four-element zinc-tin-nickel-iron alloy solution for the second time; (11) carrying out iron electroplating, wherein the current density of the iron electroplating is 25-35 A/cm<2>, the temperature is 40-80 DEG C, the pH value is 5-6, and the time is 5-7 seconds; and (12) carrying out tin electroplating, wherein the current density of the tin electroplating is 11-25 A/cm<2>, the temperature is 30-65 DEG C, the pH value is 4-6, and the time is 3-6 seconds. The technique ensures the binding force favorable between the electroplated coating and the aluminum alloy plate, and thus, has the advantages of no blisters, no shedding, no scale, low cost and low pollution.

Description

A kind of aluminium alloy plate soaks zinc-tin ferronickel acierage technique by quaternary
Technical field
The present invention relates to a kind of electroplating technology, specifically a kind of aluminium alloy plate soaks zinc-tin ferronickel acierage technique by quaternary.
Background technology
Along with the fast development of electronic product, the big area of the more and more higher and LED lamp of chip integration, its heat dissipation problem bringing is on the rise.Because the solderability of aluminium is poor, at present normal employing method is first by carrying out electroless plating after aluminium flake impact briquetting or electroplating, to strengthen its weldability.The problem that this method exists binding force of cladding material poorly, time-consuming to take a lot of work, cost is high.
As weldable aluminum alloy sheets, also have plating process on direct employing aluminium, on aluminium, the key of plating process is to improve bonding force, removes the lip-deep oxide film of aluminium, and prevents that it from regenerating.Conventionally will be on aluminium base plating one deck with it in conjunction with firmly bottom or middle layer, reason is to soak zinc and eleetrotinplate treatment solution PH difference is large, active zinc-impregnating layer is very easily destroyed in strongly-acid tin plating electrolyte, and zinc and Xi Yi generation mutual diffusion, reduces the brazing property of tin layer.
At present, what middle layer adopted is Ni plating on Al alloy technique, and nickel, as weldability intermediate deposit, exists the problem that binding force of cladding material is poor, cost is high, environmental pollution is serious.
Summary of the invention
The object of the invention is to overcome the deficiencies in the prior art, provide a kind of and can guarantee that electrolytic coating and aluminium alloy plate can form the fine and close immersion plating layer of thin crystalline substance, bonding force is good, and cost is low, pollute few weldability aluminium sheet continuous electroplating iron process that replaces nickel plating with plating iron.
According to technical scheme provided by the invention, a kind of aluminium alloy plate soaks zinc-tin ferronickel acierage technique by quaternary, and feature is: comprise following processing step:
(1) preparation alkali lye, acid solution, zinc-tin Rhometal liquid, dezincifying solution, iron plating liquid and tin plating electrolyte, stand-by;
The preparation of described alkali lye: sodium hydroxide 55~120g/L, sodium carbonate 45~60g/L, sodium phosphate 25~110g/L, Sodium Fluoride 5~25g/L, sodium lauryl sulphate 0.4~5g/L, all the other are water; Above-mentioned sodium hydroxide, sodium carbonate, sodium phosphate, Sodium Fluoride, sodium lauryl sulphate are hybridly prepared into alkali lye with water at normal temperatures;
The preparation of described acid solution: nitric acid 60~100g/L, sulfuric acid 30~60g/L, all the other are water; Above-mentioned nitric acid, sulfuric acid are hybridly prepared into acid solution with water at normal temperatures;
The preparation of described zinc-tin Rhometal liquid: sodium hydroxide 500~600g/L, zinc oxide 55~100g/L, stannous sulfate content are 30~80g/L, nickel sulfamic acid 40~50g/L, ferrous sulfamate 50~100g/L, Seignette salt 180~200g/L, sodium gluconate 140~150g/L, SODIUMNITRATE 10~50g/L, all the other are water; Above-mentioned sodium hydroxide, zinc oxide, stannous sulfate, nickel sulfamic acid, ferrous sulfamate, Seignette salt, sodium gluconate, SODIUMNITRATE are hybridly prepared into zinc-tin Rhometal liquid with water at normal temperatures;
The preparation of described dezincifying solution: nitric acid 120~200g/L, sulfuric acid 150~200g/L, all the other are water; Above-mentioned nitric acid, sulfuric acid are hybridly prepared into dezincifying solution with water at normal temperatures;
The preparation of described iron plating liquid: ferrous sulfamate content 400~800g/L, boric acid 50~120g/L, sodium laurylsulfonate 0.4~8g/L, all the other are water; Above-mentioned ferrous sulfamate, boric acid, sodium laurylsulfonate are hybridly prepared into iron plating liquid with water at normal temperatures;
The preparation of described tin plating electrolyte: tin protochloride 70~200g/L, sulfocarbolic acid 15~150g/L, ethoxylation-methyl naphthol sulfonic acid 55~60g/L, all the other are water; Above-mentioned tin protochloride, sulfocarbolic acid, ethoxylation-methyl naphthol sulfonic acid are hybridly prepared into tin plating electrolyte with water at normal temperatures.
(2) oil removing: by aluminium alloy plate concentration be 25~100g/L aluminium with processing in alkaline defatting agent solution, aluminium is 35~95 ℃ by the temperature of alkaline defatting agent solution, 25~65 seconds time;
(3) once washing: the aluminium alloy plate after oil removing is used to washed with de-ionized water at normal temperatures;
(4) alkali lye etching: the aluminium alloy plate after once washing is processed in alkali lye, and alkali liquid temperature is 35~95 ℃, 10~40 seconds time;
(5) secondary washing: the aluminium alloy plate after alkali lye etching is used to washed with de-ionized water at normal temperatures;
(6) pickling: the aluminium alloy plate after secondary washing is cleaned in acid solution, and acid liquor temperature is 35~80 ℃, 15~40 seconds time;
(7) three washings: the aluminium alloy plate through pickling is used to washed with de-ionized water at normal temperatures;
(8) soak for the first time zinc-tin Rhometal liquid: the aluminium alloy plate after three washings is processed in zinc-tin Rhometal liquid, and the temperature of zinc-tin Rhometal liquid is 35~80 ℃, 30~70 seconds time;
(9) nitric acid moves back zinc: will in dezincifying solution, process through the aluminium alloy plate soaking for the first time after zinc-tin Rhometal is processed, the temperature of dezincifying solution is 45~85 ℃, 20~40 seconds time;
(10) soak for the second time zinc-tin Rhometal liquid: the aluminium alloy plate after nitric acid moves back zinc is processed in zinc-tin Rhometal liquid, and the temperature of zinc-tin Rhometal liquid is 45~95 ℃, 30~65 seconds time;
(11) acierage: the aluminium alloy plate through soaking for the second time after zinc-tin Rhometal is processed is carried out to acierage, and the current density of acierage is 25~35A/cm 2, the temperature of iron plating liquid is 40~80 ℃, the pH value of iron plating liquid is 5~6,5~7 seconds time;
(12) eleetrotinplate: the aluminium alloy plate after plating iron is processed is carried out to eleetrotinplate, and the current density of eleetrotinplate is 11~25A/cm 2, the temperature of tin plating electrolyte is 30~65 ℃, the pH value of tin plating electrolyte is 4~6,3~6 seconds time.
The speed of a motor vehicle of described aluminium alloy plate is 5~30m/min.
The employing that oil removing of the present invention, alkali lye etching, nitric acid clean, soak zinc-tin Rhometal liquid for the first time, move back zinc alloy, soak zinc-tin Rhometal liquid, acierage, eleetrotinplate process section has for the second time guaranteed that electrolytic coating and aluminium alloy plate can form the fine and close immersion plating layer of thin crystalline substance, bonding force is good, thus non-foaming, without coming off, non-scale, cost is low, pollution is few.
Embodiment:
Below in conjunction with specific embodiment, the invention will be further described.
Aluminium used in the present invention adopts alkaline low-temperature aluminium alloy oil removing grease-removing agent with alkaline defatting agent.
Alkali lye etch step in the present invention can form the uneven surface of microcosmic injustice, to guarantee the bonding force of coating and matrix, after cleaning, peroxy-nitric acid can obtain altar mouth shape hole, these altar mouth shape holes play anchor effect to soaking zinc just, for obtaining the good subsequent plating layer of bonding force, have laid firm basis.After soaking for the second time zinc-tin Rhometal liquid, obtain fine and close zinc alloy layer, can guarantee the electrolytic coating bonding force that it is follow-up.
Embodiment mono-: a kind of aluminium alloy plate soaks zinc-tin ferronickel acierage technique by quaternary, comprises following processing step:
(1) preparation alkali lye, acid solution, zinc-tin Rhometal liquid, dezincifying solution, iron plating liquid and tin plating electrolyte, stand-by;
The preparation of described alkali lye: sodium hydroxide 55g/L, sodium carbonate 45g/L, sodium phosphate 25g/L, Sodium Fluoride 5g/L, sodium lauryl sulphate 0.4g/L, all the other are water; Sodium hydroxide, sodium carbonate, sodium phosphate, Sodium Fluoride, sodium lauryl sulphate are hybridly prepared into alkali lye with water at normal temperatures;
The preparation of described acid solution: nitric acid 60g/L, sulfuric acid 30g/L, all the other are water; Nitric acid, sulfuric acid are hybridly prepared into acid solution with water at normal temperatures;
The preparation of described zinc-tin Rhometal liquid: sodium hydroxide 500g/L, zinc oxide 55g/L, stannous sulfate content are 30g/L, nickel sulfamic acid 40g/L, ferrous sulfamate 50g/L, Seignette salt 180g/L, sodium gluconate 140g/L, SODIUMNITRATE 10g/L, all the other are water; Sodium hydroxide, zinc oxide, stannous sulfate, nickel sulfamic acid, ferrous sulfamate, Seignette salt, sodium gluconate, SODIUMNITRATE are hybridly prepared into zinc-tin Rhometal liquid with water at normal temperatures;
The preparation of described dezincifying solution: nitric acid 120g/L, sulfuric acid 150g/L, all the other are water; Nitric acid, sulfuric acid are hybridly prepared into dezincifying solution with water at normal temperatures;
The preparation of described iron plating liquid: ferrous sulfamate content 400g/L, boric acid 50g/L, sodium laurylsulfonate 0.4g/L, all the other are water; Ferrous sulfamate, boric acid, sodium laurylsulfonate are hybridly prepared into iron plating liquid with water at normal temperatures;
The preparation of described tin plating electrolyte: tin protochloride 70g/L, sulfocarbolic acid 15g/L, ethoxylation-methyl naphthol sulfonic acid 55g/L, all the other are water; Tin protochloride, sulfocarbolic acid, ethoxylation-methyl naphthol sulfonic acid are hybridly prepared into tin plating electrolyte with water at normal temperatures.
(2) oil removing: by aluminium alloy plate concentration be 25g/L aluminium with processing in alkaline defatting agent solution, aluminium is 35 ℃ by the temperature of alkaline defatting agent solution, 25 seconds time;
(3) once washing: the aluminium alloy plate after oil removing is used to washed with de-ionized water at normal temperatures;
(4) alkali lye etching: the aluminium alloy plate after once washing is processed in alkali lye, and alkali liquid temperature is 35 ℃, 10 seconds time;
(5) secondary washing: the aluminium alloy plate after alkali lye etching is used to washed with de-ionized water at normal temperatures;
(6) pickling: the aluminium alloy plate after secondary washing is cleaned in acid solution, and acid liquor temperature is 35 ℃, 15 seconds time;
(7) three washings: the aluminium alloy plate through pickling is used to washed with de-ionized water at normal temperatures;
(8) soak for the first time zinc-tin Rhometal liquid: the aluminium alloy plate after three washings is processed in zinc-tin Rhometal liquid, and the temperature of zinc-tin Rhometal liquid is 35 ℃, 30 seconds time;
(9) nitric acid moves back zinc: will in dezincifying solution, process through the aluminium alloy plate soaking for the first time after zinc-tin Rhometal is processed, the temperature of dezincifying solution is 45 ℃, 20 seconds time;
(10) soak for the second time zinc-tin Rhometal liquid: the aluminium alloy plate after nitric acid moves back zinc is processed in zinc-tin Rhometal liquid, and the temperature of zinc-tin Rhometal liquid is 45 ℃, 30 seconds time;
(11) acierage: the aluminium alloy plate through soaking for the second time after zinc-tin Rhometal is processed is carried out to acierage, and the current density of acierage is 25A/cm 2, the temperature of iron plating liquid is 40 ℃, the pH value of iron plating liquid is 5,5 seconds time;
(12) eleetrotinplate: the aluminium alloy plate after plating iron is processed is carried out to eleetrotinplate, and the current density of eleetrotinplate is 11A/cm 2, the temperature of tin plating electrolyte is 30 ℃, the pH value of tin plating electrolyte is 4,3 seconds time.
The speed of a motor vehicle of described aluminium alloy plate is 5m/min.
The weldable aluminum alloy sheets Deposit appearance that the present invention obtains is good, and bonding force is good, and adopting GB GB/T9286-1998 method to detect bonding force is 0 grade, and adopting SAT-5100 Weldability detector to test its wetting time is 1.1 seconds, and welding property is excellent.
Embodiment bis-: a kind of aluminium alloy plate soaks zinc-tin ferronickel acierage technique by quaternary, comprises following processing step:
(1) preparation alkali lye, acid solution, zinc-tin Rhometal liquid, dezincifying solution, iron plating liquid and tin plating electrolyte, stand-by;
The preparation of described alkali lye: sodium hydroxide 120g/L, sodium carbonate 60g/L, sodium phosphate 110g/L, Sodium Fluoride 25g/L, sodium lauryl sulphate 5g/L, all the other are water; Sodium hydroxide, sodium carbonate, sodium phosphate, Sodium Fluoride, sodium lauryl sulphate are hybridly prepared into alkali lye with water at normal temperatures;
The preparation of described acid solution: nitric acid 100g/L, sulfuric acid 60g/L, all the other are water; Nitric acid, sulfuric acid are hybridly prepared into acid solution with water at normal temperatures;
The preparation of described zinc-tin Rhometal liquid: sodium hydroxide 600g/L, zinc oxide 100g/L, stannous sulfate content are 80g/L, nickel sulfamic acid 50g/L, ferrous sulfamate 100g/L, Seignette salt 200g/L, sodium gluconate 150g/L, SODIUMNITRATE 50g/L, all the other are water; Sodium hydroxide, zinc oxide, stannous sulfate, nickel sulfamic acid, ferrous sulfamate, Seignette salt, sodium gluconate, SODIUMNITRATE are hybridly prepared into zinc-tin Rhometal liquid with water at normal temperatures;
The preparation of described dezincifying solution: nitric acid 200g/L, sulfuric acid 200g/L, all the other are water; Nitric acid, sulfuric acid are hybridly prepared into dezincifying solution with water at normal temperatures;
The preparation of described iron plating liquid: ferrous sulfamate content 800g/L, boric acid 120g/L, sodium laurylsulfonate 8g/L, all the other are water; Ferrous sulfamate, boric acid, sodium laurylsulfonate are hybridly prepared into iron plating liquid with water at normal temperatures;
The preparation of described tin plating electrolyte: tin protochloride 200g/L, sulfocarbolic acid 150g/L, ethoxylation-methyl naphthol sulfonic acid 60g/L, all the other are water; Tin protochloride, sulfocarbolic acid, ethoxylation-methyl naphthol sulfonic acid are hybridly prepared into tin plating electrolyte with water at normal temperatures.
(2) oil removing: by aluminium alloy plate concentration be 100g/L aluminium with processing in alkaline defatting agent solution, aluminium is 95 ℃ by the temperature of alkaline defatting agent solution, 65 seconds time;
(3) once washing: the aluminium alloy plate after oil removing is used to washed with de-ionized water at normal temperatures;
(4) alkali lye etching: the aluminium alloy plate after once washing is processed in alkali lye, and alkali liquid temperature is 95 ℃, 40 seconds time;
(5) secondary washing: the aluminium alloy plate after alkali lye etching is used to washed with de-ionized water at normal temperatures;
(6) pickling: the aluminium alloy plate after secondary washing is cleaned in acid solution, and acid liquor temperature is 80 ℃, 40 seconds time;
(7) three washings: the aluminium alloy plate through pickling is used to washed with de-ionized water at normal temperatures;
(8) soak for the first time zinc-tin Rhometal liquid: the aluminium alloy plate after three washings is processed in zinc-tin Rhometal liquid, and the temperature of zinc-tin Rhometal liquid is 80 ℃, 70 seconds time;
(9) nitric acid moves back zinc: will in dezincifying solution, process through the aluminium alloy plate soaking for the first time after zinc-tin Rhometal is processed, the temperature of dezincifying solution is 85 ℃, 40 seconds time;
(10) soak for the second time zinc-tin Rhometal liquid: the aluminium alloy plate after nitric acid moves back zinc is processed in zinc-tin Rhometal liquid, and the temperature of zinc-tin Rhometal liquid is 95 ℃, 65 seconds time;
(11) acierage: the aluminium alloy plate through soaking for the second time after zinc-tin Rhometal is processed is carried out to acierage, and the current density of acierage is 35A/cm 2, the temperature of iron plating liquid is 80 ℃, the pH value of iron plating liquid is 6,7 seconds time;
(12) eleetrotinplate: the aluminium alloy plate after plating iron is processed is carried out to eleetrotinplate, and the current density of eleetrotinplate is 25A/cm 2, the temperature of tin plating electrolyte is 65 ℃, the pH value of tin plating electrolyte is 6,6 seconds time.
The speed of a motor vehicle of described aluminium alloy plate is 30m/min.
The weldable aluminum alloy sheets Deposit appearance that the present invention obtains is good, and bonding force is good, and adopting GB GB/T9286-1998 method to detect bonding force is 0 grade, and adopting SAT-5100 Weldability detector to test its wetting time is 1.2 seconds, and welding property is excellent.
Embodiment tri-: a kind of aluminium alloy plate soaks zinc-tin ferronickel acierage technique by quaternary, comprises following processing step:
(1) preparation alkali lye, acid solution, zinc-tin Rhometal liquid, dezincifying solution, iron plating liquid and tin plating electrolyte, stand-by;
The preparation of described alkali lye: sodium hydroxide 85g/L, sodium carbonate 50g/L, sodium phosphate 60g/L, Sodium Fluoride 15g/L, sodium lauryl sulphate 2.7g/L, all the other are water; Sodium hydroxide, sodium carbonate, sodium phosphate, Sodium Fluoride, sodium lauryl sulphate are hybridly prepared into alkali lye with water at normal temperatures;
The preparation of described acid solution: nitric acid 80g/L, sulfuric acid 45g/L, all the other are water; Nitric acid, sulfuric acid are hybridly prepared into acid solution with water at normal temperatures;
The preparation of described zinc-tin Rhometal liquid: sodium hydroxide 550g/L, zinc oxide 70g/L, stannous sulfate content are 50g/L, nickel sulfamic acid 45g/L, ferrous sulfamate 75g/L, Seignette salt 190g/L, sodium gluconate 145g/L, SODIUMNITRATE 30g/L, all the other are water; Sodium hydroxide, zinc oxide, stannous sulfate, nickel sulfamic acid, ferrous sulfamate, Seignette salt, sodium gluconate, SODIUMNITRATE are hybridly prepared into zinc-tin Rhometal liquid with water at normal temperatures;
The preparation of described dezincifying solution: nitric acid 160g/L, sulfuric acid 170g/L, all the other are water; Nitric acid, sulfuric acid are hybridly prepared into dezincifying solution with water at normal temperatures;
The preparation of described iron plating liquid: ferrous sulfamate content 600g/L, boric acid 80g/L, sodium laurylsulfonate 4g/L, all the other are water; Ferrous sulfamate, boric acid, sodium laurylsulfonate are hybridly prepared into iron plating liquid with water at normal temperatures;
The preparation of described tin plating electrolyte: tin protochloride 135g/L, sulfocarbolic acid 80g/L, ethoxylation-methyl naphthol sulfonic acid 57g/L, all the other are water; Tin protochloride, sulfocarbolic acid, ethoxylation-methyl naphthol sulfonic acid are hybridly prepared into tin plating electrolyte with water at normal temperatures.
(2) oil removing: by aluminium alloy plate concentration be 60g/L aluminium with processing in alkaline defatting agent solution, aluminium is 65 ℃ by the temperature of alkaline defatting agent solution, 45 seconds time;
(3) once washing: the aluminium alloy plate after oil removing is used to washed with de-ionized water at normal temperatures;
(4) alkali lye etching: the aluminium alloy plate after once washing is processed in alkali lye, and alkali liquid temperature is 60 ℃, 30 seconds time;
(5) secondary washing: the aluminium alloy plate after alkali lye etching is used to washed with de-ionized water at normal temperatures;
(6) pickling: the aluminium alloy plate after secondary washing is cleaned in acid solution, and acid liquor temperature is 60 ℃, 30 seconds time;
(7) three washings: the aluminium alloy plate through pickling is used to washed with de-ionized water at normal temperatures;
(8) soak for the first time zinc-tin Rhometal liquid: the aluminium alloy plate after three washings is processed in zinc-tin Rhometal liquid, and the temperature of zinc-tin Rhometal liquid is 60 ℃, 50 seconds time;
(9) nitric acid moves back zinc: will in dezincifying solution, process through the aluminium alloy plate soaking for the first time after zinc-tin Rhometal is processed, the temperature of dezincifying solution is 65 ℃, 30 seconds time;
(10) soak for the second time zinc-tin Rhometal liquid: the aluminium alloy plate after nitric acid moves back zinc is processed in zinc-tin Rhometal liquid, and the temperature of zinc-tin Rhometal liquid is 65 ℃, 55 seconds time;
(11) acierage: the aluminium alloy plate through soaking for the second time after zinc-tin Rhometal is processed is carried out to acierage, and the current density of acierage is 30A/cm 2, the temperature of iron plating liquid is 60 ℃, the pH value of iron plating liquid is 5.5,6 seconds time;
(12) eleetrotinplate: the aluminium alloy plate after plating iron is processed is carried out to eleetrotinplate, and the current density of eleetrotinplate is 18A/cm 2, the temperature of tin plating electrolyte is 45 ℃, the pH value of tin plating electrolyte is 5,5 seconds time.
The speed of a motor vehicle of described aluminium alloy plate is 17m/min.The weldable aluminum alloy sheets Deposit appearance that the present invention obtains is good, and bonding force is good, and adopting GB GB/T9286-1998 method to detect bonding force is 0 grade, and adopting SAT-5100 Weldability detector to test its wetting time is 1.3 seconds, and welding property is excellent.

Claims (2)

1. aluminium alloy plate soaks a zinc-tin ferronickel acierage technique by quaternary, and feature is: comprise following processing step:
(1) preparation alkali lye, acid solution, zinc-tin Rhometal liquid, dezincifying solution, iron plating liquid and tin plating electrolyte, stand-by;
The preparation of described alkali lye: sodium hydroxide 55~120g/L, sodium carbonate 45~60g/L, sodium phosphate 25~110g/L, Sodium Fluoride 5~25g/L, sodium lauryl sulphate 0.4~5g/L, all the other are water; Above-mentioned sodium hydroxide, sodium carbonate, sodium phosphate, Sodium Fluoride, sodium lauryl sulphate are hybridly prepared into alkali lye with water at normal temperatures;
The preparation of described acid solution: nitric acid 60~100g/L, sulfuric acid 30~60g/L, all the other are water; Above-mentioned nitric acid, sulfuric acid are hybridly prepared into acid solution with water at normal temperatures;
The preparation of described zinc-tin Rhometal liquid: sodium hydroxide 500~600g/L, zinc oxide 55~100g/L, stannous sulfate content are 30~80g/L, nickel sulfamic acid 40~50g/L, ferrous sulfamate 50~100g/L, Seignette salt 180~200g/L, sodium gluconate 140~150g/L, SODIUMNITRATE 10~50g/L, all the other are water; Above-mentioned sodium hydroxide, zinc oxide, stannous sulfate, nickel sulfamic acid, ferrous sulfamate, Seignette salt, sodium gluconate, SODIUMNITRATE are hybridly prepared into zinc-tin Rhometal liquid with water at normal temperatures;
The preparation of described dezincifying solution: nitric acid 120~200g/L, sulfuric acid 150~200g/L, all the other are water; Above-mentioned nitric acid, sulfuric acid are hybridly prepared into dezincifying solution with water at normal temperatures;
The preparation of described iron plating liquid: ferrous sulfamate content 400~800g/L, boric acid 50~120g/L, sodium laurylsulfonate 0.4~8g/L, all the other are water; Above-mentioned ferrous sulfamate, boric acid, sodium laurylsulfonate are hybridly prepared into iron plating liquid with water at normal temperatures;
The preparation of described tin plating electrolyte: tin protochloride 70~200g/L, sulfocarbolic acid 15~150g/L, ethoxylation-methyl naphthol sulfonic acid 55~60g/L, all the other are water; Above-mentioned tin protochloride, sulfocarbolic acid, ethoxylation-methyl naphthol sulfonic acid are hybridly prepared into tin plating electrolyte with water at normal temperatures.
(2) oil removing: by aluminium alloy plate concentration be 25~100g/L aluminium with processing in alkaline defatting agent solution, aluminium is 35~95 ℃ by the temperature of alkaline defatting agent solution, 25~65 seconds time;
(3) once washing: the aluminium alloy plate after oil removing is used to washed with de-ionized water at normal temperatures;
(4) alkali lye etching: the aluminium alloy plate after once washing is processed in alkali lye, and alkali liquid temperature is 35~95 ℃, 10~40 seconds time;
(5) secondary washing: the aluminium alloy plate after alkali lye etching is used to washed with de-ionized water at normal temperatures;
(6) pickling: the aluminium alloy plate after secondary washing is cleaned in acid solution, and acid liquor temperature is 35~80 ℃, 15~40 seconds time;
(7) three washings: the aluminium alloy plate through pickling is used to washed with de-ionized water at normal temperatures;
(8) soak for the first time zinc-tin Rhometal liquid: the aluminium alloy plate after three washings is processed in zinc-tin Rhometal liquid, and the temperature of zinc-tin Rhometal liquid is 35~80 ℃, 30~70 seconds time;
(9) nitric acid moves back zinc: will in dezincifying solution, process through the aluminium alloy plate soaking for the first time after zinc-tin Rhometal is processed, the temperature of dezincifying solution is 45~85 ℃, 20~40 seconds time;
(10) soak for the second time zinc-tin Rhometal liquid: the aluminium alloy plate after nitric acid moves back zinc is processed in zinc-tin Rhometal liquid, and the temperature of zinc-tin Rhometal liquid is 45~95 ℃, 30~65 seconds time;
(11) acierage: the aluminium alloy plate through soaking for the second time after zinc-tin Rhometal is processed is carried out to acierage, and the current density of acierage is 25~35A/cm 2, the temperature of iron plating liquid is 40~80 ℃, the pH value of iron plating liquid is 5~6,5~7 seconds time;
(12) eleetrotinplate: the aluminium alloy plate after plating iron is processed is carried out to eleetrotinplate, and the current density of eleetrotinplate is 11~25A/cm 2, the temperature of tin plating electrolyte is 30~65 ℃, the pH value of tin plating electrolyte is 4~6,3~6 seconds time.
2. a kind of aluminium alloy plate according to claim 1 soaks zinc-tin ferronickel acierage technique by quaternary, it is characterized in that: the speed of a motor vehicle of described aluminium alloy plate is 5~30m/min.
CN201210328414.8A 2012-09-01 2012-09-01 Four-element zinc-tin-nickel-iron electroplating technique of aluminum alloy plate Pending CN103668193A (en)

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107805830A (en) * 2017-10-11 2018-03-16 武汉钢铁有限公司 Flash iron plating solution and flash method
CN107916168A (en) * 2017-11-21 2018-04-17 石狮市科达电器有限公司 A kind of mobile phone Kato surface drawing process
CN110158066A (en) * 2019-05-18 2019-08-23 深圳市创智成功科技有限公司 Environment-friendly type can inhibit the solution of tetravalent tin generating rate
CN111424295A (en) * 2020-04-22 2020-07-17 上海大学 Flash plating iron plating solution and flash plating method

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107805830A (en) * 2017-10-11 2018-03-16 武汉钢铁有限公司 Flash iron plating solution and flash method
CN107916168A (en) * 2017-11-21 2018-04-17 石狮市科达电器有限公司 A kind of mobile phone Kato surface drawing process
CN107916168B (en) * 2017-11-21 2020-10-16 石狮市科达电器有限公司 Surface wire drawing process for mobile phone card holder
CN110158066A (en) * 2019-05-18 2019-08-23 深圳市创智成功科技有限公司 Environment-friendly type can inhibit the solution of tetravalent tin generating rate
CN110158066B (en) * 2019-05-18 2020-02-14 深圳市创智成功科技有限公司 Environment-friendly solution capable of inhibiting tetravalent tin generation rate
CN111424295A (en) * 2020-04-22 2020-07-17 上海大学 Flash plating iron plating solution and flash plating method

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Application publication date: 20140326