WO1995002079A1 - Composition and process for desmutting and deoxidizing without smutting - Google Patents

Composition and process for desmutting and deoxidizing without smutting Download PDF

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Publication number
WO1995002079A1
WO1995002079A1 PCT/US1994/007290 US9407290W WO9502079A1 WO 1995002079 A1 WO1995002079 A1 WO 1995002079A1 US 9407290 W US9407290 W US 9407290W WO 9502079 A1 WO9502079 A1 WO 9502079A1
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WIPO (PCT)
Prior art keywords
range
concentration
component
composition
composition according
Prior art date
Application number
PCT/US1994/007290
Other languages
French (fr)
Inventor
Lawrence R. Carlson
Philip M. Johnson
Original Assignee
Henkel Corporation
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Henkel Corporation filed Critical Henkel Corporation
Priority to CA002166795A priority Critical patent/CA2166795A1/en
Priority to DE69405876T priority patent/DE69405876T2/en
Priority to AU73569/94A priority patent/AU678505B2/en
Priority to EP94922462A priority patent/EP0714456B1/en
Publication of WO1995002079A1 publication Critical patent/WO1995002079A1/en
Priority to KR1019960700073A priority patent/KR960704089A/en

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Classifications

    • CCHEMISTRY; METALLURGY
    • C23COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
    • C23FNON-MECHANICAL REMOVAL OF METALLIC MATERIAL FROM SURFACE; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL; MULTI-STEP PROCESSES FOR SURFACE TREATMENT OF METALLIC MATERIAL INVOLVING AT LEAST ONE PROCESS PROVIDED FOR IN CLASS C23 AND AT LEAST ONE PROCESS COVERED BY SUBCLASS C21D OR C22F OR CLASS C25
    • C23F3/00Brightening metals by chemical means
    • CCHEMISTRY; METALLURGY
    • C23COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
    • C23GCLEANING OR DE-GREASING OF METALLIC MATERIAL BY CHEMICAL METHODS OTHER THAN ELECTROLYSIS
    • C23G1/00Cleaning or pickling metallic material with solutions or molten salts
    • C23G1/02Cleaning or pickling metallic material with solutions or molten salts with acid solutions
    • C23G1/12Light metals
    • C23G1/125Light metals aluminium
    • CCHEMISTRY; METALLURGY
    • C23COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
    • C23GCLEANING OR DE-GREASING OF METALLIC MATERIAL BY CHEMICAL METHODS OTHER THAN ELECTROLYSIS
    • C23G1/00Cleaning or pickling metallic material with solutions or molten salts
    • C23G1/02Cleaning or pickling metallic material with solutions or molten salts with acid solutions
    • C23G1/12Light metals

Definitions

  • This invention relates to compositions and processes for desmutting metal surfaces, particularly the surfaces of aluminum and magnesium and their alloys that contain at least 45 % by weight of aluminum or magnesium, more particularly aluminum alloys containing sufficient copper to form smut on their surfaces easily when dissolving.
  • the compositions and processes are also useful for deoxidizing unsmutted surfaces and achieve deoxidizing without forming smut on the surfaces or otherwise staining them.
  • Deoxidizing is to be understood herein as the removal from the surface of metals of oxide films and other adherent inorganic materials that would reduce adhesion to subse ⁇ quently desired protective coatings such as conversion coatings and/or paints and the like.
  • deoxidizing agents With most deoxidizing agents, there is a perceptible but controlled dissolution of the underlying metal while the deoxidizing agent is in contact with it.
  • deoxidizing agent With most deoxidizing agents, there is a perceptible but controlled dissolution of the underlying metal while the deoxidizing agent is in contact with it.
  • de ⁇ smutting is to be understood herein as the removal, without significant attack on the underlying metal, of powdery and usually darkly colored, residues produced on a treated metal surface by some prior cleaning, etching, and/or deoxidizing treatment.
  • percent, "parts of, and ratio values are by weight; the description of a group or class of materials as suitable or preferred for a given purpose in connection with the invention implies that mixtures of any two or more of the members of the group or class are equally suitable or preferred; description of constituents in chemical terms refers to the constituents at the time of addition to any combination specified in the description, and does not necessarily preclude chemical interactions among the constituents of a mixture once mixed; speci- fication of materials in ionic form implies the presence of sufficient counterions to produce electrical neutrality for the composition as a whole; and any counterions thus implicitly specified should preferably be selected from among other constituents explicit ⁇ ly specified in ionic form, to the extent possible; otherwise such counterions may be freely selected, except for avoiding counterions that act adversely to the stated objects of the invention. Also, the term "gram mole” is applied to ionic as well as molecular constituents.
  • molybdate and persulfate ions have a favorable synergistic effect in nitric acid based desmutting compositions, permitting the elimination of both chromates and ferricyanides while producing excellent results in desmutting aluminum and magnesium and their alloys, including copper containing alloys.
  • the same compositions can be used if desired as deoxidizers for metal surfaces that have oxide films that are unwanted, and accomplish deoxidizing effectively without forming smut on the deoxidized surfaces or otherwise staining the surfaces, if not allowed to dry on the surface before rinsing.
  • one embodiment of the invention is an aqueous composition that comprises, preferably consists essentially of, or more preferably consists of, water and:
  • compositions for direct use in treating metals concentrates from which such working compositions can be pre ⁇ pared by dilution with water, processes for treating metals with a composition according to the invention, and extended processes including additional steps that are conventional perse, such as rinsing, and, particularly advantageously, subsequent conversion coating and/or painting or some similar overcoating process that puts into place an organic binder containing protective coating over the metal surface treated according to a narrower embodiment of the invention.
  • Articles of manufacture including surfaces treated according to a process of the invention are also within the scope of the invention.
  • compositions according to the inven ⁇ tion as defined above should be substantially free from many ingredients used in com ⁇ positions for similar purposes in the prior art.
  • these compositions when directly contacted with metal in a process according to this invention, contain no more than 1.0, 0.35, 0.10, 0.08, 0.04, 0.02, 0.01, 0.001, or 0.0002, percent of each of the following constituents: hexavalent chromium; silica; silicates that do not contain at least four atoms of fluorine per atom of silicon; ferricyanide; fer- rocyanide; thiourea; pyrazole compounds; sugars; gluconic acid and its salts; glycerine; ⁇ -glucoheptanoic acid and its salts; and myoinositol phosphate esters and salts thereof.
  • a process according to the invention that includes other steps than the desmutting/deoxidizing treatment with a composition as described above, when avoidance of environmental pollution is an overriding consideration, it is preferred that none of these other steps include contacting the surfaces with any composition that contains more than, with increasing preference in the order given, 1.0, 0.35, 0.10, 0.08, 0.04, 0.02, 0.01, 0.003, 0.001, or 0.0002 % of hexavalent chromium.
  • the desmutting/deoxidizing process taught herein can be advantageously used prior to chromate conversion coating or anodizing in a chromate containing solution, where one of the latter treatments is needed.
  • the concentration of component (A) as described above is preferably at least 1 gram mole per liter of composition ("M"), more preferably is at least 2.0 , or still more preferably is at least 3.7 M.
  • M gram mole per liter of composition
  • the concentration of component (A), with increasing preference in the order given is not greater than 6.8, 5.9, or 5.4, M.
  • the concentration in either a concentrated or a working com ⁇ position preferably is at least 0.05, 0.09, 0.15, or 0.22, M; and independently this concentration in a working composition preferably is not greater than 0.70, 0.62, 0.45, 0.37, or 0.30, M.
  • the concentration in either a concentrated or a working com ⁇ position preferably is at least 0.020, 0.042, 0.051, or 0.060, M; and independently this concentration in a working composition preferably is not greater than 0.19, 0.16, 0.10, 0.091, or 0.080, M.
  • the concentration in either a concentrated or a working com ⁇ position with increasing preference in the order given preferably is at least 0.01, 0.022, 0.044, or 0.052, M; and independently this concentration in a working composition preferably is not greater than 0.5, 0.24, 0.17, 0.12, 0.075, or 0.066, M.
  • the ratio of component (C) to component (D) preferably is within the range from 0.4: 1.0 to 1.5:1.0, more preferably from 0.6: 1.0 to 1.2: 1.0, or still more preferably from 0.80:1.0 to 0.95: 1.0.
  • the component is preferably supplied by soluble fluoride or bifluoride ions, more preferably the latter, which are counted as their stoichiometric equivalent as fluoride ions, as are hydrofluoric acid and any complex fluoromettallic ac ⁇ ids or their ions that may be present;
  • the concentration as fluoride in either a working or concentrated composition preferably is at least 0.01, 0.028, 0.070, 0.090, or 0.105, M; and independently this concentration in a working composition preferably is not greater than 0.28, 0.19, 0.14, or 0.119, M.
  • the concentration of sulfate ions including the stoichiometric equivalent as sulfate ions of all the sulfuric acid present in the composition, in either a working or a concentrated composition, with increasing preference in the order given, preferably is at least 0.02, 0.09, 0.20, 0.42, 0.51, or 0.69, M; and independently in a working composition this concentration preferably is not greater than 2.5, 1.9, 1.6, 1.2, 0.91, or 0.79,
  • any surfactant that is effective to lower the surface tension and solubilize any organic contaminants present on the surface to be treated could be used in principle, but many kinds of surfactants are unstable in the highly oxidizing acidic composition.
  • Another valuable function served by preferred surfactants is that of preventing spotty drying of the treated surfaces during the delays which can occur in practice between the time when treated metal surfaces are removed from contact with a desmutting/deoxidizing composition according to this invention and the time when the surfaces are rinsed.
  • compositions preferably present in the working compositions in a concentration within the range from, with increasing preference in the order given, 0.01 to 10, 0.1 to 5, 0.25 to 4, 0.55 to 3.0, 0.75 to 2.5, 0.85 to 2.0, 0.85 to 1.5, 0.90 to 1.5, 0.85 to 1.2, or 0.90 to 1.10, grams per liter ("g/L") of the composition.
  • the surfactant component is composed of equal amounts of each of two ethoxylated tetramethyl decynediols, one with a hydrophile-lipophile balance (“HLB”) in the range from 7 to 9 and the other with an HLB in the range from 11.5 to 14.5.
  • HLB hydrophile-lipophile balance
  • Component (H) is not believed to serve any technical purpose in the composition, but it is often valued as a safety precaution to workers to indicate the presence of strong acids by a prominent color such as red.
  • An amount of dye or other colorant sufficient to be readily recognized by workers, without being so large as to impose a significant economic cost or adversely impact the intended technical functions of the composition, can be readily chosen by those skilled in the art.
  • a working composition ac ⁇ cording to the invention preferably has, with increasing preference in the order given, at least 15, 18, 20, 21, 22, or 23 "points" of free acid, such points being defined for this pur ⁇ pose as equal to the number of milliliters ("mL") of 1.0 N strong alkali (such as sodium hydroxide) required to titrate a 5.0 mL sample of the composition, diluted with at least about 10 mL of deionized water containing a large excess of potassium fluoride to pre ⁇ vent precipitation of any heavy metal hydroxides during titration, to an end point with phenolphthalein indicator.
  • mL milliliters
  • N strong alkali such as sodium hydroxide
  • a working composition preferably has, with increasing preference in the order given, no more than 35, 32, 29, 27, 26, or 25 points of free acid.
  • a working composition according to the invention preferably has an oxidation-reduction (“redox”) potential, measured by comparing the potential of a platinum electrode immersed in the composition against a standard satur ⁇ ated calomel electrode immersed in the same composition, within the range of, with in ⁇ creasing preference in the order given, from 800 to 1100, from 900 to 1050, from 950 to 1035, from 975 to 1029, from 985 to 1020, from 991 to 1011, or from 996 to 1006, milli- volts (hereinafter sometimes abbreviated "mv”) more oxidizing than the standard elec ⁇ trode.
  • redox oxidation-reduction
  • a working composition according to the invention may be applied to a metal sur- face to be treated by any convenient method, several of which will be readily apparent to those skilled in the art. Immersion is the simplest and is believed most often used. However, spraying, roll coating, and the like could also be used.
  • the temperature during contact and time of contact between the composition ac- cording to the invention and the metal to be treated thereby may be varied within wide limits to achieve the desired effects, which can often be determined by visual inspection of the metal surface, after rinsing if necessary.
  • the temperature normally is preferably within the range from 15 to 35, more preferably from 17 to 30, or still more preferably from 20 to 26, ° C
  • the time of contact normally is preferably within the range from 0.5 to 30, more preferably from 2 to 20, or still more preferably from 5 to 10, minutes.
  • the treated surfaces are normally rinsed with water before any subsequent treatment.
  • the rinsing preferab ⁇ ly is completed as soon as practical after removing the treated surfaces from contact with the desmutting/deoxidizing composition, and if at all practicable should at least be rinsed before the desmutting/deoxidizing composition has dried into place on any part of the surface. After rinsing the surfaces often are also dried. Rinsing, drying, and any sub ⁇ sequent treatments are generally those known er se in the art.
  • the invention is particularly advantageously adapted to the treatment of alumin- urn alloys 7150, 7075, 2024, 2324, and 6061; also to any aluminum or magnesium alloy surfaces that have been heavily shot peened or otherwise mechanically worked, and/or have been chemically milled or heavily chemically etched with alkaline compositions, before treatment according to the invention.
  • the concentrate preferably does not contain the per ⁇ sulfate component, which has been observed to unstable in long term storage when mixed with the other components.
  • the nitric acid and surfactants are preferably supplied separately.
  • a preferred concentrate according to the invention therefore contains only water and the sulfate, ferric ion, fluoride, and molybdate components.
  • a preferred working composition contains: (A) 4.04 ⁇ HNO 3 (provided by commercial concentrated nitric acid of 42° Baume);
  • the total concentration of ferric ions in this composition is 0.26 M, because there are two ferric ions in each mole of ferric sulfate salt; the total concentration of fluoride ions is 0.112 M, because there are two fluorine atoms in each mole of ammonium bifluoride, and the total concentration of sulfate ions is 0.74 M, including 0.39 M supplied by the ferric sulfate along with the 0.35 M supplied by the sulfuric acid.
  • This composition had a redox potential of 1001 mv and 24 free acid points.
  • Panels of Type 7150 aluminum each panel containing at least one hole in order to make a more critical evaluation of the staining and/or smutting tendency, which is usually more pronounced in recesses and holes in parts being treated under practical conditions, were pre-etched to produce a reproducible oxidized and smutted surface by immersion for 7 to 10 minutes ("min") at a temperature within the range from 29.4 to 32.2 ° C in an alkaline etching solution consisting of water and 120 - 150 g/L of sodium hydroxide, 11 - 26 g/L of sodium sulfide, 30 - 60 g/L of triethanol amine, and 18 - 50 g/L of dissolved aluminum.
  • min alkaline etching solution consisting of water and 120 - 150 g/L of sodium hydroxide, 11 - 26 g/L of sodium sulfide, 30 - 60 g/L of triethanol amine, and 18 - 50 g/L of dissolved aluminum.
  • Concentrate Partial Composition A preferred concentrate partial composition consists of 150 parts of sulfuric acid,
  • ammonium molybdate 50 parts of ammonium molybdate, 250 parts of ferric sulfate, 16 parts of ammonium bifluoride, with the balance to 1000 parts being water.

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Abstract

A chromium and ferricyanide free aqueous deoxidizer/desmutter for aluminum and magnesium alloys contains nitric acid, ferric ions, persulfate, and molybdate and preferably also sulfate, fluoride, and ethoxylated acetylenic diol surfactant.

Description

Description
COMPOSITION AND PROCESS FOR DESMUTTTNG AND DEOXIDIZING
WITHOUT SMUTTING
BACKGROUND OF THE INVENTION
Field of the Invention
This invention relates to compositions and processes for desmutting metal surfaces, particularly the surfaces of aluminum and magnesium and their alloys that contain at least 45 % by weight of aluminum or magnesium, more particularly aluminum alloys containing sufficient copper to form smut on their surfaces easily when dissolving. The compositions and processes are also useful for deoxidizing unsmutted surfaces and achieve deoxidizing without forming smut on the surfaces or otherwise staining them. ("Deoxidizing" is to be understood herein as the removal from the surface of metals of oxide films and other adherent inorganic materials that would reduce adhesion to subse¬ quently desired protective coatings such as conversion coatings and/or paints and the like. With most deoxidizing agents, there is a perceptible but controlled dissolution of the underlying metal while the deoxidizing agent is in contact with it. In contrast, "de¬ smutting" is to be understood herein as the removal, without significant attack on the underlying metal, of powdery and usually darkly colored, residues produced on a treated metal surface by some prior cleaning, etching, and/or deoxidizing treatment.)
Statement of Related Art
Since the development of copper containing aluminum aerospace alloys several decades ago, the conventional deoxidizing compositions have normally included concen- trated nitric and/or sulfuric acid and chromates, with fluorides, ferric ions, oxidizers such as persulfate and peroxide, and ferricyanide all serving as frequently used optional ingredients. In recent years there has been environmentally driven incentive to avoid chromates and ferricyanides, but no fully satisfactory deoxidizer free from these ma¬ terials is believed to have been developed. DESCRIPTION OF THE INVENTION
Except in the claims and the operating examples, or where otherwise expressly indicated, all numerical quantities in this description indicating amounts of material or conditions of reaction and/or use are to be understood as modified by the word "about" in describing the broadest scope of the invention. Practice within the numerical limits stated is generally preferred. Also, unless expressly stated to the contrary: percent, "parts of, and ratio values are by weight; the description of a group or class of materials as suitable or preferred for a given purpose in connection with the invention implies that mixtures of any two or more of the members of the group or class are equally suitable or preferred; description of constituents in chemical terms refers to the constituents at the time of addition to any combination specified in the description, and does not necessarily preclude chemical interactions among the constituents of a mixture once mixed; speci- fication of materials in ionic form implies the presence of sufficient counterions to produce electrical neutrality for the composition as a whole; and any counterions thus implicitly specified should preferably be selected from among other constituents explicit¬ ly specified in ionic form, to the extent possible; otherwise such counterions may be freely selected, except for avoiding counterions that act adversely to the stated objects of the invention. Also, the term "gram mole" is applied to ionic as well as molecular constituents.
Summary of the Invention
It has been found that molybdate and persulfate ions have a favorable synergistic effect in nitric acid based desmutting compositions, permitting the elimination of both chromates and ferricyanides while producing excellent results in desmutting aluminum and magnesium and their alloys, including copper containing alloys. The same compositions can be used if desired as deoxidizers for metal surfaces that have oxide films that are unwanted, and accomplish deoxidizing effectively without forming smut on the deoxidized surfaces or otherwise staining the surfaces, if not allowed to dry on the surface before rinsing.
Accordingly, one embodiment of the invention is an aqueous composition that comprises, preferably consists essentially of, or more preferably consists of, water and:
(A) nitric acid;
(B) ferric ions; (C) persulfate (i.e., S2O„"2, also called "peroxydisulfate") anions; and
(D) molybdate or condensed molybdate anions; and, optionally but preferably, (E) fluorine containing anions; and, optionally but preferably,
(F) sulfuric acid or sulfate ions; and, optionally but preferably,
(G) surfactant, and optionally, (H) a dye or other colorant. Various embodiments of the invention include working compositions for direct use in treating metals, concentrates from which such working compositions can be pre¬ pared by dilution with water, processes for treating metals with a composition according to the invention, and extended processes including additional steps that are conventional perse, such as rinsing, and, particularly advantageously, subsequent conversion coating and/or painting or some similar overcoating process that puts into place an organic binder containing protective coating over the metal surface treated according to a narrower embodiment of the invention. Articles of manufacture including surfaces treated according to a process of the invention are also within the scope of the invention.
Description of Preferred Embodiments For a variety of reasons, it is preferred that compositions according to the inven¬ tion as defined above should be substantially free from many ingredients used in com¬ positions for similar purposes in the prior art. Specifically, it is increasingly preferred in the order given, independently for each preferably minimized component listed below, that these compositions, when directly contacted with metal in a process according to this invention, contain no more than 1.0, 0.35, 0.10, 0.08, 0.04, 0.02, 0.01, 0.001, or 0.0002, percent of each of the following constituents: hexavalent chromium; silica; silicates that do not contain at least four atoms of fluorine per atom of silicon; ferricyanide; fer- rocyanide; thiourea; pyrazole compounds; sugars; gluconic acid and its salts; glycerine; α-glucoheptanoic acid and its salts; and myoinositol phosphate esters and salts thereof. It is also preferred that the content of ferrous ions be no greater than 5, more preferably not greater than 3, or still more preferably not greater than 1.1, % of the content of ferric ions.
Furthermore, in a process according to the invention that includes other steps than the desmutting/deoxidizing treatment with a composition as described above, when avoidance of environmental pollution is an overriding consideration, it is preferred that none of these other steps include contacting the surfaces with any composition that contains more than, with increasing preference in the order given, 1.0, 0.35, 0.10, 0.08, 0.04, 0.02, 0.01, 0.003, 0.001, or 0.0002 % of hexavalent chromium. On the other hand, the desmutting/deoxidizing process taught herein can be advantageously used prior to chromate conversion coating or anodizing in a chromate containing solution, where one of the latter treatments is needed.
In an acidic aqueous composition to be used according to the invention, either di¬ rectly as a working composition or as a source of active ingredients for making up a more dilute working composition, the concentration of component (A) as described above is preferably at least 1 gram mole per liter of composition ("M"), more preferably is at least 2.0 , or still more preferably is at least 3.7 M. Independently, in a working composition the concentration of component (A), with increasing preference in the order given, is not greater than 6.8, 5.9, or 5.4, M.
For component (B), the concentration in either a concentrated or a working com¬ position, with increasing preference in the order given, preferably is at least 0.05, 0.09, 0.15, or 0.22, M; and independently this concentration in a working composition preferably is not greater than 0.70, 0.62, 0.45, 0.37, or 0.30, M.
For component (C), the concentration in either a concentrated or a working com¬ position, with increasing preference in the order given, preferably is at least 0.020, 0.042, 0.051, or 0.060, M; and independently this concentration in a working composition preferably is not greater than 0.19, 0.16, 0.10, 0.091, or 0.080, M.
For component (D), the concentration in either a concentrated or a working com¬ position with increasing preference in the order given, preferably is at least 0.01, 0.022, 0.044, or 0.052, M; and independently this concentration in a working composition preferably is not greater than 0.5, 0.24, 0.17, 0.12, 0.075, or 0.066, M. Also independ- ently in a working composition, the ratio of component (C) to component (D) preferably is within the range from 0.4: 1.0 to 1.5:1.0, more preferably from 0.6: 1.0 to 1.2: 1.0, or still more preferably from 0.80:1.0 to 0.95: 1.0.
For component (E), the component is preferably supplied by soluble fluoride or bifluoride ions, more preferably the latter, which are counted as their stoichiometric equivalent as fluoride ions, as are hydrofluoric acid and any complex fluoromettallic ac¬ ids or their ions that may be present; the concentration as fluoride in either a working or concentrated composition, with increasing preference in the order given, preferably is at least 0.01, 0.028, 0.070, 0.090, or 0.105, M; and independently this concentration in a working composition preferably is not greater than 0.28, 0.19, 0.14, or 0.119, M. (While not being bound by theory, it is believed that the principal function of the fluoride ion content is to promote slight etching of the surface treated, so that the use of fluoride is particularly desirable when treating alloys, such as the 2xxx and 7xxx series of aluminum alloys, that contain relatively high percentages of elements that are electrochemically more noble than aluminum. When treating such alloys, an etching rate in the range from 2.5 x 10"4 to 10.2 x 10"4 centimeters per hour is preferred during the desmutting opera¬ tion. Such an etching rate will generally be achieved with the preferred amounts of fluor- ide ions noted above. With other alloys that are recognized in the art as more easily de- smutted, fluoride ions may be reduced or even omitted altogether.)
For component (F), the concentration of sulfate ions, including the stoichiometric equivalent as sulfate ions of all the sulfuric acid present in the composition, in either a working or a concentrated composition, with increasing preference in the order given, preferably is at least 0.02, 0.09, 0.20, 0.42, 0.51, or 0.69, M; and independently in a working composition this concentration preferably is not greater than 2.5, 1.9, 1.6, 1.2, 0.91, or 0.79,
For component (G), almost any surfactant that is effective to lower the surface tension and solubilize any organic contaminants present on the surface to be treated could be used in principle, but many kinds of surfactants are unstable in the highly oxidizing acidic composition. Another valuable function served by preferred surfactants is that of preventing spotty drying of the treated surfaces during the delays which can occur in practice between the time when treated metal surfaces are removed from contact with a desmutting/deoxidizing composition according to this invention and the time when the surfaces are rinsed. Although it is known in the art that prompt rinsing after desmutting or deoxidizing is useful to minimize the chance of staining the treated surface, delays of two to three minutes are common in practice when desmutting large objects such as air¬ craft wing sections, and if the desmutting/deoxidizing composition dries on the surface, staining of the dried areas is almost inevitable. Surfactants which have been found to be satisfactorily stable, adequate in reducing surface tensions of the compositions while not making them intolerably prone to foaming, and effective in keeping dried areas from forming during transfer times up to at least 3 minutes between treatment and rinsing, and which are therefore particularly preferred, are ethoxylated acetylenic diols. These are preferably present in the working compositions in a concentration within the range from, with increasing preference in the order given, 0.01 to 10, 0.1 to 5, 0.25 to 4, 0.55 to 3.0, 0.75 to 2.5, 0.85 to 2.0, 0.85 to 1.5, 0.90 to 1.5, 0.85 to 1.2, or 0.90 to 1.10, grams per liter ("g/L") of the composition.
Most preferably the surfactant component is composed of equal amounts of each of two ethoxylated tetramethyl decynediols, one with a hydrophile-lipophile balance ("HLB") in the range from 7 to 9 and the other with an HLB in the range from 11.5 to 14.5.
Component (H) is not believed to serve any technical purpose in the composition, but it is often valued as a safety precaution to workers to indicate the presence of strong acids by a prominent color such as red. An amount of dye or other colorant sufficient to be readily recognized by workers, without being so large as to impose a significant economic cost or adversely impact the intended technical functions of the composition, can be readily chosen by those skilled in the art. In addition to the other characteristics noted above, a working composition ac¬ cording to the invention preferably has, with increasing preference in the order given, at least 15, 18, 20, 21, 22, or 23 "points" of free acid, such points being defined for this pur¬ pose as equal to the number of milliliters ("mL") of 1.0 N strong alkali (such as sodium hydroxide) required to titrate a 5.0 mL sample of the composition, diluted with at least about 10 mL of deionized water containing a large excess of potassium fluoride to pre¬ vent precipitation of any heavy metal hydroxides during titration, to an end point with phenolphthalein indicator. Independently, a working composition preferably has, with increasing preference in the order given, no more than 35, 32, 29, 27, 26, or 25 points of free acid. Also and independently, a working composition according to the invention, preferably has an oxidation-reduction ("redox") potential, measured by comparing the potential of a platinum electrode immersed in the composition against a standard satur¬ ated calomel electrode immersed in the same composition, within the range of, with in¬ creasing preference in the order given, from 800 to 1100, from 900 to 1050, from 950 to 1035, from 975 to 1029, from 985 to 1020, from 991 to 1011, or from 996 to 1006, milli- volts (hereinafter sometimes abbreviated "mv") more oxidizing than the standard elec¬ trode.
A working composition according to the invention may be applied to a metal sur- face to be treated by any convenient method, several of which will be readily apparent to those skilled in the art. Immersion is the simplest and is believed most often used. However, spraying, roll coating, and the like could also be used.
The temperature during contact and time of contact between the composition ac- cording to the invention and the metal to be treated thereby may be varied within wide limits to achieve the desired effects, which can often be determined by visual inspection of the metal surface, after rinsing if necessary. As a general guide line, the temperature normally is preferably within the range from 15 to 35, more preferably from 17 to 30, or still more preferably from 20 to 26, ° C, and the time of contact normally is preferably within the range from 0.5 to 30, more preferably from 2 to 20, or still more preferably from 5 to 10, minutes.
After treatment according to this invention, the treated surfaces are normally rinsed with water before any subsequent treatment. As noted above, the rinsing preferab¬ ly is completed as soon as practical after removing the treated surfaces from contact with the desmutting/deoxidizing composition, and if at all practicable should at least be rinsed before the desmutting/deoxidizing composition has dried into place on any part of the surface. After rinsing the surfaces often are also dried. Rinsing, drying, and any sub¬ sequent treatments are generally those known er se in the art.
The invention is particularly advantageously adapted to the treatment of alumin- urn alloys 7150, 7075, 2024, 2324, and 6061; also to any aluminum or magnesium alloy surfaces that have been heavily shot peened or otherwise mechanically worked, and/or have been chemically milled or heavily chemically etched with alkaline compositions, before treatment according to the invention.
If it is desired to supply a concentrate from which the working composition can be prepared by dilution with water, the concentrate preferably does not contain the per¬ sulfate component, which has been observed to unstable in long term storage when mixed with the other components. Also, the nitric acid and surfactants are preferably supplied separately. A preferred concentrate according to the invention therefore contains only water and the sulfate, ferric ion, fluoride, and molybdate components. During extended use of a composition according to this invention, new constitu¬ ents may be introduced into the composition by dissolution of the metal objects treated, and some of the consituents of the bath may be consumed by reaction. Therefore, as with other similar treatments, if very long term operation is desired, it is advantageous to with¬ draw a portion of the composition continuously for removal of any unwanted constituents and replenishment of depleted desirable constituents. In some cases, only replenishment may be satisfactory, or no treatment of the composition at all may be required. The practice of this invention may be further appreciated by consideration of the following, non-limiting, working examples.
EXAMPLES
Working Composition
A preferred working composition contains: (A) 4.04Λ HNO3 (provided by commercial concentrated nitric acid of 42° Baume);
(B) 0.13 Fe->(SO4)3 (provided by a commercially available 50 % aqueous solution);
(C) 0.0701 M (NH4)2S2Og (provided from commercial solid salt);
(D) 0.059 M (NH4)2Mo2O7 (provided from commercial solid salt);
(E) 0.056 NH4HF2 (provided from commercial solid salt); (F) 0.354 H2SO4 (provided from commercial concentrated sulfuric acid);
(G) 0.51 g/L of each of SURFYNOL™ 465 and 440 surfactants, commercially avail¬ able from Air Products Co and described by the supplier as ethoxylated tetra- methyl decynediols, the former with an HLB value of 13.0 and the latter with an HLB value of 8.0; and (H) 0.18 g/L of NYLOSAN™ RHODAMINE™ E-B 90 red dye.
(Note: The total concentration of ferric ions in this composition is 0.26 M, because there are two ferric ions in each mole of ferric sulfate salt; the total concentration of fluoride ions is 0.112 M, because there are two fluorine atoms in each mole of ammonium bifluoride, and the total concentration of sulfate ions is 0.74 M, including 0.39 M supplied by the ferric sulfate along with the 0.35 M supplied by the sulfuric acid.)
This composition had a redox potential of 1001 mv and 24 free acid points. Use of a Composition According to the Invention
Panels of Type 7150 aluminum, each panel containing at least one hole in order to make a more critical evaluation of the staining and/or smutting tendency, which is usually more pronounced in recesses and holes in parts being treated under practical conditions, were pre-etched to produce a reproducible oxidized and smutted surface by immersion for 7 to 10 minutes ("min") at a temperature within the range from 29.4 to 32.2 ° C in an alkaline etching solution consisting of water and 120 - 150 g/L of sodium hydroxide, 11 - 26 g/L of sodium sulfide, 30 - 60 g/L of triethanol amine, and 18 - 50 g/L of dissolved aluminum. After removal from the etching solution, the etched panels were allowed to stand in ambient air for 2 - 3 min, then successively rinsed twice for 2 - 3 minutes each time with deionized water at ambient temperature, then immersed in the above noted desmutting composition for 10 min at ambient temperature wit air agitation of the composition, allowed to stand in the ambient air for 2 - 3 min, then rinsed twice, the first time for 2 - 3 min and the second time for 1 min, with deionized water. Some of the panels were then conventionally anodized with satisfactory results. Others of the panels were allowed to dry and visually examined. Bright, smooth surfaces without smut were produced. Concentrate Partial Composition A preferred concentrate partial composition consists of 150 parts of sulfuric acid,
50 parts of ammonium molybdate, 250 parts of ferric sulfate, 16 parts of ammonium bifluoride, with the balance to 1000 parts being water.

Claims

1. A liquid desmutting/deoxidizing composition of matter consisting essentially of water and:
(A) nitric acid; (B) ferric ions;
(C) persulfate anions; and
(D) molybdate or condensed molybdate anions; and, optionally but preferably,
(E) fluorine containing anions; and, optionally but preferably,
(F) sulfuric acid or sulfate ions; and, optionally but preferably, (G) surfactant, and optionally,
(H) a dye or other colorant.
2. A desmutting/deoxidizing composition according to claim 1, wherein the concen¬ tration of component (A) is within the range from about 1 to about 6.8 M, the concen¬ tration of component (B) is within the range from about 0.09 to about 0.74 M, the con- centration of component (C) is within the range from about 0.020 to about 0.19M, the concentration of component (D) is within the range from about 0.01 to about 0.17 M, the concentration of fluoride is within the range from about 0.01 to about 0.28 , and the concentration of sulfate ions is within the range from about 0.02 to about 2.5 M.
3. A desmutting/deoxidizing composition according to claim 2, wherein the con- centration of component (A) is within the range from about 2.0 to about 5.9 M, the con¬ centration of component (B) is within the range from about 0.09 to about 0.59 M, the concentration of component (C) is within the range from about 0.020 to about 0.16 , the concentration of component (D) is within the range from about 0.022 to about 0.12 , the concentration of fluoride is within the range from about 0.028 to about 0.28 , and the concentration of sulfate ions is within the range from about 0.09 to about 1.9 M.
4. A desmutting/deoxidizing composition according to claim 3, wherein the concen¬ tration of component (B) is within the range from about 0.22 to about 0.45 M, the con¬ centration of component (C) is within the range from about 0.042 to about 0.10 , the concentration of component (D) is within the range from about 0.044 to about 0.075 M, the ratio of the concentration of component (C) to the concentration of component (D) is within the range from about 046:1.0 to about 1.5:1.0, the concentration of fluoride is within the range from about 0.070 to about 0.19 , the concentration of sulfate ions is within the range from about 0.42 to about 1.2 M, and the concentration of free acid is within the range from about 15 to about 40 points.
5. A desmutting/deoxidizing composition according to claim 4, wherein the con¬ centration of component (A) is within the range from about 3.7 to about 5.4 M, the con¬ centration of component (B) is within the range from about 0.22 to about 0.37 M, the concentration of component (C) is within the range from about 0.051 to about 0.091 M, the concentration of component (D) is within the range from about 0.052 to about 0.075 M, the ratio of the concentration of component (C) to the concentration of component (D) is within the range from about 0.6:1.0 to about 1.2:1.0, the concentration of fluoride is within the range from about 0.090 to about 0.14 M, and the concentration of sulfate ions is within the range from about 0.51 to about 0.91 M, and the concentration of free acid is within the range from about 20 to about 35 points.
6. A desmutting/deoxidizing composition according to claim 5, wherein the concen¬ tration of component (B) is within the range from about 0.22 to about 0.30 M, the concentration of component (C) is within the range from about 0.060 to about 0.080 M, the concentration of coήiponent (D) is within the range from about 0.052 to about 0.066 M, the ratio of the concentration of component (C) to the concentration of component (D) is within the range from about 0.80:1.0 to about 0.95:1.0, the concentration of fluoride is within the range from about 0.105 to about 0.119 M, and the concentration of sulfate ions is within the range from about 0.69 to about 0.79 M. and the concentration of free acid is within the range from about 22 to about 25 points.
7. A process of contacting a smutted or oxidized metal surface with a composition according to claim 6 at a temperature within the range from about 20 to about 26 ° C for a time within the range from about 5 to about 10 minutes and subsequently removing the surface from contact with said composition and rinsing the removed surface with water, so as to produce a bright surface.
8. A process according to claim 7, wherein the metal surface is a surface of Type 7150, 7075, 2324, 2024, or 6061 aluminum alloy.
9. A process of contacting a smutted or oxidized metal surface with a composition according to claim 5 at a temperature within the range from about 17 to about 30 ° C for a time within the range from about 2 to about 20 minutes and subsequently removing the surface from contact with said composition and rinsing the removed surface with water, so as to produce a bright surface.
10. A process according to claim 9, wherein the metal surface is a surface of aluminum or aluminum alloy.
11. A process of contacting a smutted or oxidized metal surface with a composition according to claim 4 at a temperature within the range from about 15 to about 35 ° C for a time within the range from about 0.5 to about 30 minutes and subsequently removing the surface from contact with said composition and rinsing the removed surface with water, so as to produce a bright surface.
12. A process according to claim 11, wherein the metal surface is a surface of aluminum, magnesium, or a magnesium or aluminum alloy.
13. A process of contacting a smutted or oxidized metal surface with a composition according to claim 3 at a temperature within the range from about 15 to about 35 ° C for a time within the range from about 0.5 to about 30 minutes and subsequently removing the surface from contact with said composition and rinsing the removed surface with water, so as to produce a bright surface.
14. A process according to claim 13, wherein the metal surface is a surface of aluminum, magnesium, or a magnesium or aluminum alloy.
15. A process of contacting a smutted or oxidized metal surface with a composition according to claim 2 and subsequently removing the surface from contact with said composition and rinsing the removed surface with water, so as to produce a bright surface.
16. A process according to claim 15, wherein the metal surface is a surface of aluminum, magnesium, or a magnesium or aluminum alloy.
17. A process of contacting a smutted or oxidized metal surface with a composition according to claim 1 and subsequently removing the surface from contact with said composition and rinsing the removed surface with water, so as to produce a bright surface.
18. A process according to claim 17, wherein the metal surface is a surface of aluminum, magnesium, or a magnesium or aluminum alloy.
19. A concentrate composition for preparing a desmutting/deoxidizing composition according to claim 1, said composition consisting essentially of water and:
(A) at least 0.09 M concentration of ferric ions;
(B) at least 0.01 M total concentration of molybdate and condensed molybdate anions; (E) at least 0.42 M concentration of fluoride; and
(F) at least 0.20 M concentration of sulfate ions.
20. A concentrate composition according to claim 19, consisting essentially of about 150 parts of sulfuric acid, about 50 parts of ammonium molybdate, about 250 parts of ferric sulfate, about 16 parts of ammonium bifluoride, and the balance to 1000 parts of water.
PCT/US1994/007290 1993-07-09 1994-06-30 Composition and process for desmutting and deoxidizing without smutting WO1995002079A1 (en)

Priority Applications (5)

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CA002166795A CA2166795A1 (en) 1993-07-09 1994-06-30 Composition and process for desmutting and deoxidizing without smutting
DE69405876T DE69405876T2 (en) 1993-07-09 1994-06-30 COMPOSITION AND METHOD FOR CLEANING AND DEOXIDATING WITHOUT SOIL
AU73569/94A AU678505B2 (en) 1993-07-09 1994-06-30 Composition and process for desmutting and deoxidizing without smutting
EP94922462A EP0714456B1 (en) 1993-07-09 1994-06-30 Composition and process for desmutting and deoxidizing without smutting
KR1019960700073A KR960704089A (en) 1993-07-09 1996-01-09 Soot removal and deoxygenation composition and method (COMPOSITION AND PROCESS FOR DESMUTTING AND DESIDIZING WITHOUT SMUTTING)

Applications Claiming Priority (2)

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US08/088,998 1993-07-09
US08/088,998 US5393447A (en) 1993-07-09 1993-07-09 Composition and process for desmutting and deoxidizing without smutting

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EP1231296A2 (en) * 2001-02-09 2002-08-14 Henkel Corporation Composition and process for etching and desmutting aluminum and its alloys
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US5393447A (en) 1995-02-28
JPH0797693A (en) 1995-04-11
MX9405156A (en) 1995-01-31
DE69405876T2 (en) 1998-05-07
AU7356994A (en) 1995-02-06
JP3606604B2 (en) 2005-01-05
CA2166795A1 (en) 1995-01-19
KR960704089A (en) 1996-08-31
EP0714456B1 (en) 1997-09-24
CN1129018A (en) 1996-08-14
DE69405876D1 (en) 1997-10-30
EP0714456A4 (en) 1996-06-12
AU678505B2 (en) 1997-05-29
TW270150B (en) 1996-02-11
EP0714456A1 (en) 1996-06-05

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