Claims
- 1. An aqueous liquid composition suitable, optionally after dilution with water, for forming a colorless transparent conversion coating on a metal substrate, said liquid composition comprising water and the following components:(A) a component of one or more dissolved transition metal compounds that contains zirconium and may also include titanium, said component comprising at least about 0.25 mM/l of total zirconium and titanium atoms, provided that zirconium constitutes more than 30% of the moles of the total moles of zirconium and titanium; (B) a component of at least one dissolved compound that contains inorganically bonded fluorine and is not part of component (A), such that the molar ratio of fluorine atoms to the total of zirconium and titanium atoms is at least 6.05:1:00 and a fluoride sensitive electrode in contact with the composition has a potential that is from about −200 to about 100 mv when compared with the same fluoride sensitive electrode in contact with Standard Solution 120 MC; and (C) a component of dissolved organic polymer molecules, wherein component (C) constitutes at least about 0.009 g/l of the composition and contains at least one of: a sufficient number of acid moieties that the number ratio of acid moieties to total carbon atoms within component (C) is at least about 1.0:9.0; and a sufficient number of nucleophilic moieties that the number ratio of nucleophilic moieties to total carbon atoms within component (C) is at least about 1.0:50.
- 2. An aqueous liquid composition suitable, optionally after dilution with water, for forming a colorless transparent conversion coating on a metal substrate, said liquid composition comprising water and the following components:(A) a component of one or more dissolved transition metal compounds that contains zirconium and may also include titanium, said component (A) comprising at least about 0.45 mM/l of total zirconium and titanium atoms and at least about 50 mole percent of the total is zirconium; (B) a component of at least one dissolved compound that contains Inorganically bonded fluorine and is not part of component (A), such that the molar ratio of fluorine atoms to the total of zirconium and titanium atoms is at least 6.15:1:00 and a fluoride sensitive electrode in contact with the composition has a potential that is from about −130 to about −10 mv when compared with the same fluoride sensitive electrode in contact with Standard Solution 120 MC; and (C) a component of dissolved organic polymer molecules comprising at least about 0.045 g/l of polymer molecules that have an average molecular weight of at least 1500 Daltons and that contain, as at least 10% of their total mass, one or more aminomethylphenyl moieties, each of which conforms to the following general formula: wherein: each of R1 through R3 is selected, independently of each other and independently from one aminomethylphenyl moiety of the component to another, from the group consisting of a hydrogen moiety, an alkyl moiety with from 1 to 5 carbon atoms, and an aryl moiety with from 6 to 18 carbon atoms; each of Y1 through Y3 is selected, independently of each other and independently from one aminomethylphenyl moiety to another, from the group consisting of: a hydrogen moiety; a —CH2Cl moiety; an alkyl moiety with from 1 to 18 carbon atoms; an aryl moiety with from 6 to 18 carbon atoms; a moiety conforming to the general formula —CR12R13OR14, where each of R12 through R14 is selected from the group consisting of a hydrogen moiety, an alkyl moiety, an aryl moiety, a hydroxyalkyl moiety, an aminoalkyl moiety, a mercaptoalkyl moiety, and a phosphoalkyl moiety; and a moiety Z that conforms to one of the two immediately following general formulas: wherein: each of R5 through R7 is selected, independently of each other and independently from one aminomethylphenyl moiety to another, from the group consisting of a hydrogen moiety, an alkyl moiety, an aryl moiety, a hydroxyalkyl moiety, an aminoalkyl moiety, a mercaptoalkyl moiety, and a phosphoalkyl moiety; R8 is a polyhydroxy alkyl moiety and R9 is selected from the group consisting of a hydrogen moiety, an alkyl moiety, an aryl moiety, a hydroxy or polyhydroxy alkyl moiety, an amino or polyamino alkyl moiety, a mercapto or polymercapto alkyl moiety, a phospho or polyphospho alkyl moiety, an —O− moiety, and an —OH moiety; Y4 is a moiety Z as above defined; and W1 is selected, independently from one molecule of the component to another and from one to another aminomethylphenyl moiety, from the group consisting of a hydrogen moiety, an acyl moiety, an acetyl moiety, a benzoyl moiety; a 3-allyloxy-2-hydroxypropyl moiety; a 3-benzyloxy-2-hydroxypropyl moiety; a 3-butoxy-2-hydroxypropyl moiety; a 3-alkyloxy-2-hydroxypropyl moiety; a 2-hydroxyoctyl moiety; a 2-hydroxyalkyl moiety; a 2-hydroxy-2-phenylethyl moiety; a 2-hydroxy-2-alkylphenylethyl moiety; a benzyl, methyl, ethyl, propyl, unsubstituted alkyl, unsubstituted allyl, or unsubstituted alkylbenzyl moiety; a halo or polyhalo alkyl, or halo or polyhalo alkenyl, moiety; a moiety derived from a condensation polymerization product of ethylene oxide, propyfene oxide or a mixture thereof by deleting one hydrogen atom therefrom; and a sodium, potassium, lithium, ammonium or substituted ammonium, or phosphonium or substituted phosphonium cation moiety; component (C) contains at least one of: a sufficient number of acid moieties that the number ratio of acid moieties to total carbon atoms within component (C) is at least about 1.0:9.0; and a sufficient number of nucleophilic moieties that the number ratio of nucleophilic moieties to total carbon atoms within component (C) is at least about 1.0:50; in component (C) there is a sufficient number of amino nitrogen atoms that the number ratio of amino nitrogen atoms to total carbon atoms in component (C) is at least about 1.0:40; the composition comprises at least about 0.060 mM/l of chelating agent molecules selected from the group consisting of molecules each of which contains at least two nucleophilic moieties selected from the group consisting of carboxyl, carboxylate, noncarboxyl hydroxyl, amino, thio, phosphonic acid, phosphonate, phosphinic acid, and phosphinate moieties, with these at least two moieties being bonded into the molecule in positions such that a five- or six-membered ring of atoms can be formed by atoms in the molecule and a multivalent metal atom that is coordinatively covalently bonded to a nucleophilic atom selected from a group consisting of oxygen, amino nitrogen, thio sulfur, or phosphinic phosphorus, in each of said nucleophilic moieties in the molecule; and the pH value of the composition is from about 2.5 to about 4.1.
- 3. A composition according to claim 2, wherein:component (A) constitutes at least about 0.7 and not more than about 3.0 mM/l of total zirconium and titanium atoms; there is a molar ratio of fluorine atoms to the total of zirconium and titanium atoms that is at least about 6.20:1.00; a fluoride sensitive electrode in contact with the composition has a potential that is from about −100 to about −70 mv when compared with the same fluoride sensitive electrode in contact with Standard Solution 120 MC; component (C) constitutes at least about 0.060 g/l of polymer molecules that have an average molecular weight of at least 1500 Daltons and that contain, as at least 50% of their total mass, one or more aminomethylphenyl moieties that conform to the general formulas for such moieties given above when: each of R1 through R3, R5, R6, Y1 through Y3, and W1 is a hydrogen moiety; R7 is an alkyl moiety having not more than 3 carbon atoms; R8 is a moiety conforming to the general formula —CH2(CHOH)p—H, where p is an integer that is 4, 5, or 6; and R9 is not present; in component (C) there is a sufficient number of amino nitrogen atoms that the number ratio of amino nitrogen atoms to total carbon atoms in component (C) is at least about 1.0:22; the composition comprises at least about 0.060 mM/l of chelating agent molecules selected from the group consisting of gluconic, citric, tartaric, and malic acids and the water soluble salts of all of these acids; and the pH value of the composition is from about 2.9 to about 3.5.
- 4. An aqueous liquid composition suitable, optionally after dilution with water, for forming a colorless transparent conversion coating on a metal substrate, said liquid composition comprising water and the following components:(A) a component of one or more dissolved transition metal compounds that contains zirconium and may also include titanium, said component (A) comprising at least about 0.45 mM/l of total zirconium and titanium atoms and at least about 50 mole percent of the total is zirconium; (B) a component of at least one dissolved compound that contains inorganically bonded fluorine and is not part of component (A), such that the molar ratio of fluorine atoms to the total of zirconium and titanium atoms is at least 6.15:1:00 and a fluoride sensitive electrode in contact with the composition has a potential that is from about −130 to about −10 mv when compared with the same fluoride sensitive electrode in contact with Standard Solution 120 MC; and; (C) a component of dissolved organic polymer molecules comprising at least about 0.009 g/l of the composition and containing at least one of: a sufficient number of acid moieties that the number ratio of acid moieties to total carbon atoms within component (C) is at least about 1.0:9.0; and a sufficient number of nucleophilic moieties that the number ratio of nucleophilic moieties to total carbon atoms within component (C) is at least about 1.0:50; component (C) comprises a sufficient number of acidic moieties that the number ratio of acidic moieties to total carbon atoms is at least about 1.0:8.0; the composition comprises at least about 0.060 mM/l of chelating agent molecules selected from the group consisting of molecules each of which contains at least two nucleophilic moieties selected from the group consisting of carboxyl, carboxylate, noncarboxyl hydroxyl, amino, thio, phosphonic acid, phosphonate, phosphinic acid, and phosphinate moieties, with these at least two moieties being bonded into the molecule in positions such that a five- or six-membered ring of atoms can be formed by atoms in the molecule and a multivalent metal atom that is coordinatively covalently bonded to a nucleophilic atom selected from a group consisting of oxygen, amino nitrogen, thio sulfur, or phosphinic phosphorus, in each of said nucleophilic moieties in the molecule; and the pH value of the composition is from about 2.5 to about 4.1.
- 5. A composition according to claim 4, wherein:component (A) constitutes at least about 0.7 and not more than about 3.0 mM/l of total zirconium and titanium atoms; there is a molar ratio of fluorine atoms to the total of zirconium and titanium atoms that is at least about 6.20:1.00; a fluoride sensitive electrode in contact with the composition has a potential that is from about −100 to about −70 mv when compared with the same fluoride sensitive electrode in contact with Standard Solution 120 MC; component (C) constitutes at least about 0.050 g/l of polymer molecules that have an average molecular weight of at least 500 Daltons and that are polymers of at least one of maleic, acrylic, and methacrylic acids and salts of all of these acids; in component (C) there is a sufficient number of carboxylate moieties that the number ratio of carboxylate moieties to total carbon atoms in component (C) is at least about 1.0:4.0; the composition comprises at least about 0.060 mM/l of chelating agent molecules selected from the group consisting of gluconic, citric, tartaric, and malic acids and the water soluble salts of all of these acids; and the pH value of the composition is from about 2.9 to about 3.5.
- 6. A concentrate composition according to claim 1, wherein:component (A) constitutes at least about 45 mM/l of total zirconium and titanium atoms and at least about 50 mole percent of the total is zirconium; there is a molar ratio of fluorine atoms to the total of zirconium and titanium atoms that is at least about 6.15:1.00; component (C) constitutes at least about 4.5 g/l of polymer molecules that have an average molecular weight of at least 1500 Daltons and that contain, as at least 10% of their total mass, one or more aminomethylphenyl moieties, each of which conforms to the following general formula: wherein: each of R1 through R3 is selected, independently of each other and independently from one aminomethylphenyl moiety of the component to another, from the group consisting of a hydrogen moiety, an alkyl moiety with from 1 to 5 carbon atoms, and an aryl moiety with from 6 to 18 carbon atoms; each of Y1 through Y3 is selected, independently of each other and independently from one aminomethylphenyl moiety to another, from the group consisting of: a hydrogen moiety; a —CH2Cl moiety; an alkyl moiety with from 1 to 18 carbon atoms; an aryl moiety with from 6 to 18 carbon atoms; a moiety conforming to the general formula —CR12R13OR14, where each of R12 through R14 is selected from the group consisting of a hydrogen moiety, an alkyl moiety, an aryl moiety, a hydroxyalkyl moiety, an aminoalkyl moiety, a mercaptoalkyl moiety, and a phosphoalkyl moiety; and a moiety Z that conforms to one of the two immediately following general formulas: wherein: each of R5 through R7 is selected, independently of each other and independently from one aminomethylphenyl moiety to another, from the group consisting of a hydrogen moiety, an alkyl moiety, an aryl moiety, a hydroxyalkyl moiety, an aminoalkyl moiety, a mercaptoalkyl moiety, and a phosphoalkyl moiety; R8 is a polyhydroxy alkyl moiety and R9 is selected from the group consisting of a hydrogen moiety, an alkyl moiety, an aryl moiety, a hydroxy or polyhydroxy alkyl moiety, an amino or polyamino alkyl moiety, a mercapto or polymercapto alkyl moiety, a phospho or polyphospho alkyl moiety, an —O− moiety, and an —OH moiety; Y4 is a moiety Z as above defined; and W1 is selected, independently from one molecule of the component to another and from one to another aminomethylphenyl moiety, from the group consisting of a hydrogen moiety, an acyl moiety, an acetyl moiety, a benzoyl moiety; a 3-allyloxy-2-hydroxy-propyl moiety; a 3-benzyloxy-2-hydroxypropyl moiety; a 3-butoxy-2-hydroxypropyl moiety; a 3-alkyloxy-2-hydroxypropyl moiety; a 2-hydroxyoctyl moiety; a 2-hydroxyalkyl moiety; a 2-hydroxy-2-phenylethyl moiety; a 2-hydroxy-2-alkylphenylethyl moiety; a benzyl, methyl, ethyl, propyl, unsubstituted alkyl, unsubstituted allyl, or unsubstituted alkylbenzyl moiety; a halo or polyhalo alkyl, or halo or polyhalo alkenyl, moiety; a moiety derived from a condensation polymerization product of ethylene oxide, propylene oxide or a mixture thereof by deleting one hydrogen atom therefrom; and a sodium, potassium, lithium, ammonium or substituted ammonium, or phosphonium or substituted phosphonium cation moiety; in component (C) there is a sufficient number of amino nitrogen atoms that the number ratio of amino nitrogen atoms to total carbon atoms in component (C) is at least about 1.0:40; the composition comprises at least about 6.0 mM/l of chelating agent molecules selected from the group consisting of molecules each of which contains at least two nucleophilic moieties selected from the group consisting of carboxyl, carboxylate, non-carboxyl hydroxyl, amino, thio, phosphonic acid, phosphonate, phosphinic acid, and phosphinate moieties, with these at least two moieties being bonded into the molecule in positions such that a five- or six-membered ring of atoms can be formed by atoms in the molecule and a multivalent metal atom that is coordinatively covalently bonded to a nucleophilic atom (oxygen, amino nitrogen, thio sulfur, or phosphinic phosphorus) in each of said nucleophilic moieties in the molecule.
- 7. A concentrate composition according to claim 1, wherein:component (A) constitutes at least about 45 mM/l of total zirconium and titanium atoms and at least about 50 mole percent of the total is zirconium; there is a molar ratio of fluorine atoms to the total of zirconium and titanium atoms that is at least about 6.15:1.00; component (C) comprises a sufficient number of acidic moieties that the number ratio of acidic moieties to total carbon atoms is at least about 1.0:8.0; the composition comprises at least about 6.0 mM/l of chelating agent molecules selected from the group consisting of molecules each of which contains at least two nucleophilic moieties selected from the group consisting of carboxyl, carboxylate, non-carboxyl hydroxyl, amino, thio, phosphonic acid, phosphonate, phosphinic acid, and phosphinate moieties, with these at least two moieties being bonded into the molecule in positions such that a five- or six-membered ring of atoms can be formed by atoms in the molecule and a multivalent metal atom that is coordinatively covalently bonded to a nucleophilic atom (oxygen, amino nitrogen, thio sulfur, or phosphinic phosphorus) in each of said nucleophilic moieties in the molecule.
- 8. An aqueous liquid composition suitable for forming a colorless transparent conversion coating on a metal substrate, said liquid composition having been made by mixing a first mass of water with at least the following additional materials:(A) a second mass of one or more dissolved transition metal compounds that contain zirconium and may also include titanium, said component comprising at least about 0.25 mM/l of total zirconium and titanium atoms, provided that zirconium constitutes more than 30% of the moles of the total moles of zirconium and titanium; (B) a third mass of at least one dissolved material that contains inorganically bonded fluorine and is not part of said second mass, such that the molar ratio of fluorine to the total of zirconium and titanium is at least 6.05:1:00 and a fluoride sensitive electrode in contact with the composition has a potential that is from about −200 to about 100 mv when compared with the same fluoride sensitive electrode in contact with Standard Solution 120 MC; and (C) a fourth mass of dissolved organic polymer molecules, wherein said fourth mass constitutes at least about 0.009 g/l of the composition and contains at least one of: a sufficient number of acid moieties that the number ratio of acid moieties to total carbon atoms within component (C) is at least about 1.0:9.0; and a sufficient number of nucleophilic moieties that the number ratio of nucleophilic moieties to total carbon atoms within component (C) is at least about 1.0:50.
- 9. A composition according to claim 8, wherein:said second mass comprises a number of zirconium and titanium atoms to provide at least about 0.45 mM/l of total zirconium and titanium atoms to the total composition and at least about 50 mole percent of the total of zirconium and titanium is zirconium; there is a molar ratio of fluorine atoms to the total of zirconium and titanium atoms that is at least about 6.15:1.00; a fluoride sensitive electrode in contact with the composition has a potential that is from about −130 to about −10 mv when compared with the same fluoride sensitive electrode in contact with Standard Solution 120 MC; said fourth mass provides to the total composition at least about 0.045 f/l of polymer molecules that have an average molecular weight of at least 1500 Daltons and that contain, as at least 10% of their total mass, one or more aminomethylphenyl moieties, each of which conforms to the following general formula: wherein: each of R1 through R3 is selected, independently of each other and independently from one aminomethylphenyl moiety of the component to another, from the group consisting of a hydrogen moiety, an alkyl moiety with from 1 to 5 carbon atoms, and an aryl moiety with from 6 to 18 carbon atoms; each of Y1 through Y3 is selected, independently of each other and independently from one aminomethylphenyl moiety to another, from the group consisting of: a hydrogen moiety; a —CH2Cl moiety; an alkyl moiety with from 1 to 18 carbon atoms; an aryl moiety with from 6 to 18 carbon atoms; a moiety conforming to the general formula —CR12R13OR14, where each of R12 through R14 is selected from the group consisting of a hydrogen moiety, an alkyl moiety, an aryl moiety, a hydroxyalkyl moiety, an aminoalkyl moiety, a mercaptoalkyl moiety, and a phosphoalkyl moiety; and a moiety Z that conforms to one of the two immediately following general formulas: wherein: each of R5 through R7 is selected, independently of each other and independently from one aminomethylphenyl moiety to another, from the group consisting of a hydrogen moiety, an alkyl moiety, an aryl moiety, a hydroxyalkyl moiety, an aminoalkyl moiety, a mercaptoalkyl moiety, and a phosphoalkyl moiety; R8 is a polyhydroxy alkyl moiety and R9 is selected from the group consisting of a hydrogen moiety, an alkyl moiety, an aryl moiety, a hydroxy or polyhydroxy alkyl moiety, an amino or polyamino alkyl moiety, a mercapto or polymercapto alkyl moiety, a phospho or polyphospho alkyl moiety, an —O− moiety, and an —OH moiety; Y4 is a moiety Z as above defined; and W1 is selected, independently from one molecule of the component to another and from one to another aminomethylphenyl moiety, from the group consisting of a hydrogen moiety, an acyl moiety, an acetyl moiety, a benzoyl moiety; a 3-allyloxy-2-hydroxypropyl moiety; a 3-benzyloxy-2-hydroxypropyl moiety; a 3-butoxy-2-hydroxypropyl moiety; a 3-alkyloxy-2-hydroxypropyl moiety; a 2-hydroxyoctyl moiety; a 2-hydroxyalkyl moiety; a 2-hydroxy-2-phenylethyl moiety; a 2-hydroxy-2-alkylphenylethyl moiety; a benzyl, methyl, ethyl, propyl, unsubstituted alkyl, unsubstituted allyl, or unsubstituted alkylbenzyl moiety; a halo or polyhalo alkyl, or halo or polyhalo alkenyl, moiety; a moiety derived from a condensation polymerization product of ethylene oxide, propylene oxide or a mixture thereof by deleting one hydrogen atom therefrom; and a sodium, potassium, lithium, ammonium or substituted ammonium, or phosphonium or substituted phosphonium cation moiety; in component (C) there is a sufficient number of amino nitrogen atoms that the number ratio of amino nitrogen atoms to total carbon atoms in component (C) is at least about 1.0:40; the materials mixed to make the composition additionally include a fifth mass that provides to the composition at least about 0.060 mM/l of chelating agent molecules selected from the group consisting of molecules each of which contains at least two nucleophilic moieties selected from the group consisting of carboxyl, carboxylate, noncarboxyl hydroxyl, amino, thio, phosphonic acid, phosphonate, phosphinic acid, and phosphinate moieties, with these at least two moieties being bonded into the molecule in positions such that a five- or six-membered ring of atoms can be formed by atoms in the molecule and a multivalent metal atom that is coordinatively covalently bonded to a nucleophilic atom selected from a group consisting of oxygen, amino nitrogen, thio sulfur, or phosphinic phosphorus, in each of said nucleophilic moieties in the molecule; and the pH value of the composition is from about 2.5 to about 4.1.
- 10. A composition according to claim 9, wherein:said second mass provides to the composition at least about 0.7 and not more than about 3.0 mM/l of total zirconium and titanium atoms; there is a molar ratio of fluorine atoms to the total of zirconium and titanium atoms that is at least about 6.20:1.00; a fluoride sensitive electrode in contact with the composition has a potential that is from about −100 to about −70 mv when compared with the same fluoride sensitive electrode in contact with Standard Solution 120 MC; said fourth mass provides to the composition at least about 0.060 g/l of polymer molecules that have an average molecular weight of at least 1500 Daltons and that contain, as at least 50% of their total mass, one or more aminomethylphenyl moieties that conform to the general formulas for such moieties given in claim 9 when: each of R1 through R3, R5, R6, Y1 through Y3, and W1 is a hydrogen moiety; R7 is an alkyl moiety having not more than 3 carbon atoms; R8 is a moiety conforming to the general formula —CH2(CHOH)p—H, where p is an integer that is 4, 5, or 6; and R9 is not present; in said fourth mass there is a sufficient number of amino nitrogen atoms that the number ratio of amino nitrogen atoms to total carbon atoms in said fourth mass is at least about 1.0:22; said fifth mass provides to the composition at least about 0.060 mM/l of chelating agent molecules selected from the group consisting of gluconic, citric, tartaric, and malic acids and the water soluble salts of all of these acids; and the pH value of the composition is from about 2.9 to about 3.5.
- 11. A composition according to claim 8, wherein:said second mass provides to the composition at least about 0.45 mM/l of total zirconium and titanium atoms and at least about 50 mole percent of the total is zirconium; there is a molar ratio of fluorine atoms to the total of zirconium and titanium atoms that is at least about 6.15:1.00; a fluoride sensitive electrode in contact with the composition has a potential that is from about −130 to about −10 mv when compared with the same fluoride sensitive electrode in contact with Standard Solution 120 MC: said fourth mass comprises a sufficient number of acidic moieties that the number ratio of acidic moieties to total carbon atoms is at least about 1.0:8.0; the materials mixed to make the composition additionally include a fifth mass that provides to the composition at least about 0.060 mM/l of chelating agent molecules selected from the group consisting of molecules each of which contains at least two nucleophilic moieties selected from the group consisting of carboxyl, carboxylate, noncarboxyl hydroxyl, amino, thio, phosphonic acid, phosphonate, phosphinic acid, and phosphinate moieties, with these at least two moieties being bonded into the molecule in positions such that a five- or six-membered ring of atoms can be formed by atoms in the molecule and a multivalent metal atom that is coordinatively covalently bonded to a nucleophilic atom selected from a group consisting oxygen, amino nitrogen, thio sulfur, or phosphinic phosphorus, in each of said nucleophilic moieties in the molecule; and the pH value of the composition is from about 2.5 to about 4.1.
- 12. A composition according to claim 11, wherein:said second mass provides to the composition at least about 0.7 and not more than about 3.0 mM/l of total zirconium and titanium atoms; there is a molar ratio of fluorine atoms to the total of zirconium and titanium atoms that is at least about 6.20:1.00; a fluoride sensitive electrode in contact with the composition has a potential that is from about −100 to about −70 mv when compared with the same fluoride sensitive electrode in contact with Standard Solution 120 MC; said fourth mass provides to the composition at least about 0.050 g/l of polymer molecules that have an average molecular weight of at least 500 Daltons and that are polymers of at least one of maleic, acrylic, and methacrylic acids and salts of all of these acids; in said fourth mass there is a sufficient number of carboxylate moieties that the number ratio of carboxylate moieties to total carbon atoms in said fourth mass is at least about 1.0:4.0; said fifth mass provides to the composition at least about 0.060 mM/l of chelating agent molecules selected from the group consisting of gluconic, citric, tartaric, and malic acids and the water soluble salts of all of these acids; and the pH value of the composition is from about 2.9 to about 3.5.
- 13. A concentrate composition according to claim 8, wherein:said second mass comprises a number of zirconium and titanium atoms to provide at least about 45 mM/l of total zirconium and titanium atoms to the total composition and at least about 50 mole percent of the total of zirconium and titanium is zirconium; there is a molar ratio of fluorine atoms to the total of zirconium and titanium atoms that is at least about 6.15:1.00; said fourth mass provides to the total composition at least about 4.5 g/l of polymer molecules that have an average molecular weight of at least 1500 Daltons and that contain, as at least 10% of their total mass, one or more aminomethylphenyl moieties, each of which conforms to the following general formula: wherein: each of R1 through R3 is selected, independently of each other and independently from one aminomethylphenyl moiety of the component to another, from the group consisting of a hydrogen moiety, an alkyl moiety with from 1 to 5 carbon atoms, and an aryl moiety with from 6 to 18 carbon atoms; each of Y1 through Y3 is selected, independently of each other and independently from one aminomethylphenyl moiety to another, from the group consisting of: a hydrogen moiety; a —CH2Cl moiety; an alkyl moiety with from 1 to 18 carbon atoms; an aryl moiety with from 6 to 18 carbon atoms; a moiety conforming to the general formula —CR12R13OR14, where each of R12 through R14 is selected from the group consisting of a hydrogen moiety, an alkyl moiety, an aryl moiety, a hydroxyalkyl moiety, an aminoalkyl moiety, a mercaptoalkyl moiety, and a phosphoalkyl moiety; and a moiety Z that conforms to one of the two immediately following general formulas: wherein: each of R5 through R7 is selected, independently of each other and independently from one aminomethylphenyl moiety to another, from the group consisting of a hydrogen moiety, an alkyl moiety, an aryl moiety, a hydroxyalkyl moiety, an aminoalkyl moiety, a mercaptoalkyl moiety, and a phosphoalkyl moiety; R8 is a polyhydroxy alkyl moiety and R9 is selected from the group consisting of a hydrogen moiety, an alkyl moiety, an aryl moiety, a hydroxy or polyhydroxy alkyl moiety, an amino or polyamino alkyl moiety, a mercapto or polymercapto alkyl moiety, a phospho or polyphospho alkyl moiety, an —O− moiety, and an —OH moiety; Y4 is a moiety Z as above defined; and W1 is selected, independently from one molecule of the component to another and from one to another aminomethylphenyl moiety, from the group consisting of a hydrogen moiety, an acyl moiety, an acetyl moiety, a benzoyl moiety; a 3-allyloxy-2-hydroxy-propyl moiety; a 3-benzyloxy-2-hydroxypropyl moiety; a 3-butoxy-2-hydroxypropyl moiety; a 3-alkyloxy-2-hydroxypropyl moiety; a 2-hydroxyoctyl moiety; a 2-hydroxyalkyl moiety; a 2-hydroxy-2-phenylethyl moiety; a 2-hydroxy-2-alkylphenylethyl moiety; a benzyl, methyl, ethyl, propyl, unsubstituted alkyl, unsubstituted allyl, or unsubstituted alkylbenzyl moiety; a halo or polyhalo alkyl, or halo or polyhalo alkenyl, moiety; a moiety derived from a condensation polymerization product of ethylene oxide, propylene oxide or a mixture thereof by deleting one hydrogen atom therefrom; and a sodium, potassium, lithium, ammonium or substituted ammonium, or phosphonium or substituted phosphonium cation moiety; in component (C) there is a sufficient number of amino nitrogen atoms that the number ratio of amino nitrogen atoms to total carbon atoms in component (C) is at least about 1.0:40; and the materials mixed to make the composition additionally include a fifth mass that provides to the composition at least about 6.0 mM/l of chelating agent molecules selected from the group consisting of molecules each of which contains at least two nucleophilic moieties selected from the group consisting of carboxyl, carboxylate, non-carboxyl hydroxyl, amino, thio, phosphonic acid, phosphonate, phosphinic acid, and phosphinate moieties, with these at least two moieties being bonded into the molecule in positions such that a five- or six-membered ring of atoms can be formed by atoms in the molecule and a multivalent metal atom that is coordinatively covalently bonded to a nucleophilic atom (oxygen, amino nitrogen, thio sulfur, or phosphinic phosphorus) in each of said nucleophilic moieties in the molecule.
- 14. A concentrate composition according to claim 8, wherein:said second mass provides to the composition at least about 45 mM/l of total zirconium and titanium atoms and at least about 50 mole percent of the total is zirconium; there is a molar ratio of fluorine atoms to the total of zirconium and titanium atoms that is at least about 6.15:1.00; said fourth mass comprises a sufficient number of acidic moieties that the number ratio of acidic moieties to total carbon atoms is at least about 1.0:8.0; the materials mixed to make the composition additionally include a fifth mass that provides to the composition at least about 6.0 mM/l of chelating agent molecules selected from the group consisting of molecules each of which contains at least two nucleophilic moieties selected from the group consisting of carboxyl, carboxylate, non-carboxyl hydroxyl, amino, thio, phosphonic acid, phosphonate, phosphinic acid, and phosphinate moieties, with these at least six-membered ring of atoms can be formed by atoms in the molecule and a multivalent metal atom that is coordinatively covalently bonded to a nucleophilic atom (oxygen, amino nitrogen, thio sulfur, or phosphinic phosphorus) in each of said nucleophilic moieties in the molecule.
- 15. A process of forming a substantially transparent conversion coating on a metal surface, said process comprising an operation of contacting said metal surface with an aqueous liquid composition, optionally after dilution with water, said liquid composition comprising water and the following components:(A) a component of one or more dissolved transition; metal compounds that contains zirconium and may also include titanium, said component comprising at least about 0.25 mM/l of total zirconium and titanium atoms, provided: that zirconium constitutes more than 30% of the moles of the total moles of zirconium and titanium; (B) a component of at least one dissolved compounds that, contains inorganically bonded fluorine and is not part of component (A), such that the molar ratio of fluorine atoms to the total of zirconium and titanium atoms is at least 6.05:1:00 and a fluoride sensitive electrode in contact with the composition has a potential that is from about −200 to about 100 mv when compared with the same fluoride sensitive electrode in contact with Standard Solution 120 MC; and (D) component of dissolved organic polymer molecules, wherein component (C) constitutes at least about 0.009 g/l of the composition and contains at least one of: a sufficient number of acid moieties that the number ratio of acid moieties to total carbon atoms within component (C) is at least about 1.0:9.0; and a sufficient number of nucleophilic moieties that the number ratio of nucleophilic moieties to total carbon atoms within component (C) is at least about 1.0:50.
- 16. A process according to claim 15, wherein the aqueous liquid composition is maintained within a temperature range from 40 to 56° C. during said contacting with said metal surface.
- 17. A process according to claim 15, wherein said contacting is performed for a time of from 2 to 50 seconds.
- 18. A process according to claim 15, wherein said metal surface is comprised of aluminum.
- 19. A process according to claim 15, wherein said metal surface is a surface of an aluminum can.
Parent Case Info
This application claims priority from United States Provisional application Ser. No. 60/103,471, filed Oct. 8, 1998, and International application PCT/US99/21445, filed Oct. 8, 1999.
PCT Information
Filing Document |
Filing Date |
Country |
Kind |
PCT/US99/21445 |
|
WO |
00 |
Publishing Document |
Publishing Date |
Country |
Kind |
WO00/20657 |
4/13/2000 |
WO |
A |
US Referenced Citations (14)
Non-Patent Literature Citations (2)
Entry |
Kirk-Othmer Encyclopedia of Chemical Technology, “Metal Surface Conversion Treatments”, John Wiley & Sons, Inc., 1995.* |
Henkel Surface Technologies Technical Process Bulletin No. 1580—Rev. Jan. 3, 1994—Ridoline® 123 Acidic Cleaner for D & I Aluminum Cans (7 pages). |
Provisional Applications (1)
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Number |
Date |
Country |
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60/103471 |
Oct 1998 |
US |