• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Process for the phosphating of metal surfaces, particularly iron and steel, with aqueous, acid phosphating solutions. Along with zinc and phosphate ions, the solutions contain an activator combination of alkali metal bromate and m-nitrobenzolsulphonate. This new process is particularly well suited for the pretreatment of metal surfaces prior to cathodic electrobath lacquering. The acid phosphating solutions meet the following conditions: a) zinc content 1,2 to 2 g/l; b) bromate content 0.5 to 1 g/l; c) m-nitrobenzolsulphonate 0.2 to 0.5 g/l; d) weight ratio phosphate: zinc = (7 to 20) : 1; e) weight ratio phosphate : bromate = (14 to 48) : 1; f) weight ratio zinc : bromate = (1.2 to 4) : 1; g) weight ratio bromate : m-nitrobenzolsulphonate = (1 to 5) : 1; h) number of points total acid 18 to 25; i) number of points free acid 0.5 to 1; g) temperature 35 to 40<o>C.
    公开号:SU1560060A3
    申请号:SU864028345
    申请日:1986-10-21
    公开日:1990-04-23
    发明作者:Бакардит Кабадо Рамон
    申请人:Хенкель Кгаа (Фирма);
    IPC主号:
    专利说明:

    The invention relates to the field of protecting metals from corrosion and can be used in the preparation of metal surfaces for subsequent cathodic electrofilming.
    The purpose of the invention is to improve the quality of the zinc-phosphate-based layer deposited on the metal surface.
    Aqueous compositions are prepared containing the components indicated in Examples 1-7 and Comparative Examples I-IX.
    Example 1. 1.3 t / l zinc, 1 g / l sodium bromate, 0.25 g / l sodium salt of m-nitrobenzene sulfonic acid, 16 g / l phosphate. Total number
    acid is 18, free acid number is 0.7.
    Example I (comparative). 1.3 g / l zinc, 1 g / l sodium bromate, 16 r / l phosphate. The total acid number is 18, the free acid number is 0.6.
    Example II (comparative). 1.3 g / l of zinc, 0.25 g / l of sodium salt of m-nitrobenzenesulfonic acid, 16 g / l of phosphate. The total acid number is 18, the free kiglot number is 0.6.
    Example III (comparative). 1.3 g / l zinc, 0.25 g / l sodium bromate, 1.0 g / l sodium salt m-nitrobenzenesulfonic acid, 16 g / l phosphate.
    SL
    oh
    with&
    The total acid number is 18, the free acid number is 0.6.
    Example IV (comparative). 1, 3 g / l zinc, 1 g1 / l sodium bromate,. , 2 g / l of sodium salt of m-nitrobenzene-ultraphosphate, 16 g / l of phosphate. The number of common acid is 17.5, the number of free acid is 0.7.
    Example 2. 1.9 g / l kick, JQ
    18 g / l of phosphate, 1.1 g / l of sodium bromate, 0.3 g / l of sodium salt of m-nitrobenzenesulfonic acid. The total acid number is 28.5, the free acid number is 0.7.15.
    Example V (comparative). 1.9 g / l zinc, 18 g / l phosphate, 3.1 g / l sodium bromine. The total acid number is 19, the free acid number is 0.8.20.
    Example VI (comparative). 1.9 g / l of zinc, 18 g / l of phosphate, 0.3 g / l of sodium salt of m-nitrobenzenesulfonic acid. The total acid number is 19, the free acid number is 0.8. 25
    Example VII (comparative). 1.9 g / l zinc, 18 g / l phosphate, 0.3 g / l sodium bromate, 1.1 g / l sodium salt of m-nitrobenzenesulfonic acid. The total acid number is 19, the free acid JQ is 0.8.
    Example VIII (comparative), 1.9 g / l zinc, 1.2 g / l sodium bromate, 0.3 g / l sodium salt m-nitrobenzenesulfonic acid, 18 g / l phosphate. The number 35 of the total acid is 18.5, the number of the free acid is 0.7.
    Example 3. 1.7 gUl of zinc, 18 g / l of phosphate, 0.3 g / l of nickel, 0.9 g / l of sodium bromate, 0.3 g / l of sodium salt of 4Q m-nitrobenzenesulfonic acid. The total acid number is 18.5, the free acid number is 0.7.
    Example A. 1.4 g / l zinc, 20, g / l, phosphate, 0.8 g / l sodium bromate, 0.5 g / l sodium salt m-nitrobenzenesulfonic acid, 0.45 g / l nickel . The total acid number is 20, the free acid number is 0.8.
    Example IX (comparative). JQ 1.4 g / l zinc, 0.7 g / l sodium bromate, 0.2 g / l sodium salt m-nitrobenzenesulfonic acid, 20 g / l phosphate. The total acid number is 16, the free acid number is 0.7.
    Example 5.1.9 g / l zinc, 20.5 g / l phosphate. 0.3 g / l nickel, 0.7 g / l manganese, 0.8 tL sodium bromate, 0.5 g / l sodium salt m-nitrobenzenesulfonate. The total acid number is 20.5, the free acid number is 0.8.
    Example 6. 2.0 g / l zinc, 19 g / l phosphate, 1.0 g / l sodium bromate, 0.3 g / l sodium salt of m-nitrobenzenesulfonate, 0.5 g / l nickel. The total acid number is 19, the free acid number is 0.7.
    Example 7, 1.4 g / l zinc, 0.93 g / l manganese, 0.25 g / l nickel, 21 g / l phosphate, 1.0 g / l sodium bromate, 0.35 g / l sodium salt m-nitrobenzenesulfonate. The total acid number is 21, the free acid number is 0.8.
    Steel sheets are cleaned with an alkaline agent solution solution at 50 ° C for 3 minutes, followed by flushing with water. Then they are treated with the above compositions, washed with deionized water and dried.
     The resulting phosphate coatings are fine crystalline and solid. In tab. 1 shows the temperatures of the formulations used, as well as the weight of the phosphate coating obtained; The type of treatment for all the examples is spraying, duration - 2 minutes. The aqueous composition of Example A is known, it contains 2.0 g / l zinc, 16 g / l phosphate, 1.5 g / l sodium chlorate, 2.0 g / l sodium salt m-nitrobenzenesulfonic acid, 2 g / l nitrate and 2 g / l of fluoride. The total acid number is 20, the free acid number is 0.9. The same treatment is applied to sheets of electrolytically galvanized steel (coating 7.5 µm). Phosphate coatings applied to electrolytically galvanized steel show a slightly increased weight.
    Phosphated sheets are applied with lacquer coatings by cathodic electroplating by dipping followed by drying at elevated temperature. The thickness of the dried coating is approximately 20 microns. Lacquered sheets are then supplied with a parallel cut and subjected to salt fog tests according to the German Standard DIN 50021 (50% aqueous sodium chloride solution to create a fog; test temperature 35t20 ° C). At the end of this experiment, the adhesion strength is determined by isolating a section (in mm) on both sides of a parallel slice in which the lacquer coating is separated from the sheet, and bubble formation is optically evaluated according to DIN 53 209. At the same time (m) bubbles per unit area and -value. (g) bubbles, and (m) O and (g) 0 means the absence of bubbles. All these data are given in - tab. 2, in which corrosion was given after coating on the basis of an epoxy lacquer (commercial product Cathode, GT-83-0268-1) by cathodic electroplating by dipping. The thickness of the dried coating is 20 microns. The steel was subjected to salt spray testing for JQOO hours and electrolytically galvanized steel for 480 hours.
    The test results show that the present invention makes it possible to obtain a high quality zinc-phosphate-based layer deposited on the metal surface.
    Zinc ions1,3-2,0
    Phosphate ions16-21
    Sodium bromate 0.8-1.1
    Sodium salt m-nit
    robenzenesulfonic acid, 0.25-0.50, the total acid number is 18-2, the free acid number is 0.7-0.8, and the weight ratio of phosphate to zinc is (8-16): 1, phosphate to bromate (14 , 5-26.2), zinc to bromate (1.2-2.5): and bromate to nitrobenzenesulfonate (1.6-4.4) :.
    2. The composition of pop.1, which differs from the fact that it additionally contains, g / lЈ
    Nickel ions 0.3-0.5
    Manganese ions 0,70-0,93
    i1
    Table 1
    Invention Formula
    1. An aqueous composition for the preparation of metal surfaces for subsequent cathodic electroplating by dipping, containing zinc and phosphate ions, an alkaline salt of a halogenate acid, and a sodium salt of m-nitrobenzene sulphonic acid, in order to improve the quality of the applied on the metal surface of the zinc phosphate-based layer, it contains sodium bromate as the alkaline salt of the halogenate acid at the following wearing components, g / l:
    thirty
    35
    40
    table 2
    权利要求:
    Claims (2)
    [1]
    1. Aqueous composition for the preparation of metal surfaces for subsequent cathodic electroplating by dipping, containing zinc and phosphate ions, an alkaline salt of halogenate acid and sodium salt of m-nitrobenzenesulfonic acid, characterized in that, in order to improve the quality of the zinc-phosphate-based layer applied to the metal surface , as an alkaline salt of a halogenate acid, does it contain sodium bromate in the following ratio of components, g / l:
    6 Zinc ions 1.3-2.0 Phosphate ions 16-21 Sodium bromate 0.8-1, 1 Sodium salt m-nit ~ robenzenesulfonic acid 0.25-0.50
    The total acid number is 18-2! the number of free acid is 0.7-0.8, with the weight ratio of phosphate to 19 zinc being (8-16): 1, phosphate to bro; mat (14.5-26.2), kick to bromate (1.2-2.5): 1 and bromate to nitrobenzenesulfonate (1.6-4.4): 1.
    [2]
    2. The composition according to claim 1, distinguished in that it additionally contains g / l!
    Nickel ions 0.3-0.5
    Manganese ions 0,70-0,93
    , one
    Table 1
    Water composition according to example and comparativefor example Temperaturecomposition, ° C Phosphate coating weight, g / m 4 one 40 1,3 I 40 1,3 II 40 1,3 III 40 1.5 IV 40 1.5 2 38 1.5 V 38 1.5 VI 38 1.5 VII 38 1.5 Viii 38 1.5 3 40 1.4 four 35 1.2 Ix 35 1.2 five '40 1.5 6 38 1, 65 7 40 1.65 BUT 40 1.7
    7
    1560060
    eight
    ι
    table 2
    --------Watercompositionaccording tofor exampleand comparativefor example Adhesive prochnost "at sheets from Bubble formation onsheets of become,mm electrolytically galvanized steel,mm become electrolytically galvanizedbecome one 1-1.5 Priblieitel- (m) 1 / (g) 1 but 2 (m) 1 / (1 *) 1 I 2 2.5-3 (m) 2 / (g) 2 (m) 2 / (g) 3 II 3 5-6 (m) 3 / (g) 2 (m) 3 / (g) 3 III 2.5-3 3.5-4 (m) 3 / (g) 2 (m) 2 / (g) 3 IV 2 3 (m) 2 / (g) 2 (m) 2 / (g) 3 2 15 1.5 (m) 0 (m) 1 / (g) 1 V 2 2.5-3 (m) 2 / (g) 2-3 (m) 2 / (g) 3 VI 3-3.5 '5-5,5 (m) 2 / (g) 3 (m) 3 / (g) 3 VII 3-3.5 4-5 (m) 3 / (g) 2 (m) 2 / (g) 3 Viii 1.5 1.5 (m) 0 (m) 1 / (g) 1 3 one 1.5 (m) 0 (m) 1 / (g) 1 four 0.5 2 (m) 0 (m) 0 Ix 2 2.5 (m) 2 / (g) 2-3 (m) 2 / (g) 3 five 0.5 one (m) 0 (m) 0 6 1.5 2 (m) 0 (m) 1 / (g) 1 7 one one (m) 0 (m) 1 / (g) b BUT 2.5 3 (m) 2 / (g) 2 (m) 2 / (g) 3
    类似技术:
    公开号 | 公开日 | 专利标题
    KR910003722B1|1991-06-08|Phosphate coating composition and method of applying a zinc-nickel phosphate coating
    EP0019430B1|1983-11-30|Composition and process for zinc phosphate coating a metal surfaceand a process for painting the coated surface
    US6197126B1|2001-03-06|Nickel-free phosphating process
    PT1433877E|2009-01-08|Pretreatment method for coating
    KR20040058038A|2004-07-03|Chemical conversion coating agent and surface-treated metal
    US5207840A|1993-05-04|Process for preparing zinc phosphate coatings containing manganese and magnesium
    GB2093075A|1982-08-25|Phosphate compositions for coating metal surfaces
    CA1200471A|1986-02-11|Zinc phosphate conversion coating composition
    US5401381A|1995-03-28|Process for phosphating metallic surfaces
    SU1560060A3|1990-04-23|Aqueous composition for preparing metal surface to subsequent cathode electrovarnishing by dipping
    EP0564287A2|1993-10-06|Method for zinc-phosphating metal surface to be treated by the cationic electrodeposition coating
    GB2224516A|1990-05-09|Phosphate conversion treatment liquid
    GB2155960A|1985-10-02|Processes and compositions for coating metal surfaces
    PT94843B|1997-03-31|A process for the post-washing of passive layers of phosphate using aqueous solutions containing aluminum
    US5328526A|1994-07-12|Method for zinc-phosphating metal surface
    US4596607A|1986-06-24|Alkaline resistant manganese-nickel-zinc phosphate conversion coatings and method of application
    US4330345A|1982-05-18|Phosphate coating process and composition
    JP3137535B2|2001-02-26|Zinc-containing metal-coated steel sheet composite excellent in coatability and method for producing the same
    US5714047A|1998-02-03|Acid aqueous phosphatic solution and process using same for phosphating metal surfaces
    EP0056675B1|1984-11-28|Pretreatment composition for phosphatising ferrous metals, and method of preparing the same
    JP3737168B2|2006-01-18|Manufacturing method of electrogalvanized steel sheet with high whiteness and excellent paintability
    GB2074611A|1981-11-04|Phosphating Compositions
    US5503733A|1996-04-02|Process for phosphating galvanized steel surfaces
    EP0695817A1|1996-02-07|Acid aqueous phosphatic solution and process using same for phosphating metal surfaces
    EP0757726A1|1997-02-12|Method of pre-treating metal substrates prior to painting
    同族专利:
    公开号 | 公开日
    EP0215041B1|1988-08-17|
    US4708744A|1987-11-24|
    WO1986004931A1|1986-08-28|
    BR8605484A|1987-04-22|
    JPS62501919A|1987-07-30|
    EP0215041A1|1987-03-25|
    ES8606528A1|1986-04-01|
    ES541129A0|1986-04-01|
    DE3660553D1|1988-09-22|
    PL254554A1|1986-08-26|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    NL91161C|1952-08-28|
    US2884351A|1956-01-25|1959-04-28|Parker Rust Proof Co|Method of cold rolling ferrous strip stock|
    BE635606A|1962-08-01|
    GB1542222A|1977-01-06|1979-03-14|Pyrene Chemical Services Ltd|Phosphate coating compositions|
    GB1591039A|1977-05-03|1981-06-10|Pyrene Chemical Services Ltd|Processes and compositions for coating metal surfaces|
    JPS5811513B2|1979-02-13|1983-03-03|Nippon Paint Co Ltd|
    DE3101866A1|1981-01-22|1982-08-26|Metallgesellschaft Ag, 6000 Frankfurt|METHOD FOR PHOSPHATING METALS|
    DE3118375C2|1981-05-09|1989-06-15|Metallgesellschaft Ag, 6000 Frankfurt, De|
    US4498935A|1981-07-13|1985-02-12|Parker Chemical Company|Zinc phosphate conversion coating composition|ES2092983T3|1987-12-18|1996-12-16|Nippon Paint Co Ltd|PROCEDURE TO PHOSPHATE WITH A ZINC A METALLIC SURFACE.|
    US5525431A|1989-12-12|1996-06-11|Nippon Steel Corporation|Zinc-base galvanized sheet steel excellent in press-formability, phosphatability, etc. and process for producing the same|
    DE4330002C1|1993-09-04|1995-03-23|Herberts Gmbh|Process for the coating of metallic substrates and application of the process|
    JP3348856B2|1993-09-06|2002-11-20|日本パーカライジング株式会社|Nickel free phosphating method|
    DE19540085A1|1995-10-27|1997-04-30|Henkel Kgaa|Low nitrate, manganese-free zinc phosphating|
    CA2358625A1|2000-10-10|2002-04-10|Henkel Corporation|Phosphate conversion coating|
    US20080314479A1|2007-06-07|2008-12-25|Henkel Ag & Co. Kgaa|High manganese cobalt-modified zinc phosphate conversion coating|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ES541129A|ES8606528A1|1985-02-22|1985-02-22|Process for the phosphating of metal surfaces.|
    [返回顶部]