TH66455B - - Google Patents

Abstract

DC60 (27/09/56) This invention relates to the technical sector of mineral pigments whose products are formed in the initial source by repeated and / or repeated reactions between calcium carbonate and The reaction product or such carbonate product with medium to strong H3O + ionizer. One or more of a kind And such reaction or carbonate products with CO2 gas arising in the source and / or from external supply. And at least one type of aluminum silicate And / or at least One type of synthetic silica And / or at least one type of calcium silicate And / or at least Silicates of one monovalent salt, such as sodium silicate and / or potassium silicate and / or lithium silicate and / or at least one type of aluminum hydroxide. And / or at least One type of sodium and / or potassium aluminate, which is less than 0.1% by weight, silicates of monovalent salts such as sodium, potassium or lithium silicate, or their mixtures. That is in accordance with the dry weight of calcium carbonate, which has a pH greater than 7.5, measured at 20 ° C. And their use in paper-making applications, such as adding mass and / or paper coating. And, more specifically, printing paper, especially for offset printing. Or digital printing, such as ink jet printing And / or laser The invention relates to the technical sector of mineral pigments whose products originate in source by a double and / or multiple repeated reaction between calcium carbonate and such reaction products or carbonate products with. Medium to strong H3O + ions One or more of a kind And such reaction or carbonate products with gaseous CO2 arising in the source and / or from externally supplied. And at least one type of aluminum silicate And / or at least One type of synthetic silica And / or at least one type of calcium silicate And / or at least Silicates of one monovalent salt, such as sodium silicate and / or potassium silicate and / or lithium silicate and / or at least one type of aluminum hydroxide. And / or at least One type of sodium and / or potassium aluminate, which is less than 0.1% by weight, silicates of monovalent salts such as sodium, potassium or lithium silicate, or their mixtures. This is in accordance with the dry weight of calcium carbonate, pH greater than 7.5, measured at 20 ํ C, and their use in paper-making applications such as mass enhancement and / or paper coating. And, more specifically, printing paper, especially for offset printing. Or digital printing, such as ink jet printing And / or laser

Claims (8)

Disclaimer (all) which will not appear on the advertisement page. : ------ 23/05/2018 ------ (OCR) Page 1 of the number 9 pages Disclaimer 1. Mineral pigment containing calcium carbonate which contains products that are Born In the initial source by a repetitive reaction twice and / or multiple The times between calcium carbonate and reaction products or carbonate products containing CO2 gas arising in the source and / or from externally supplied. And reaction products or carbonate products containing one or more medium to strong ion donors H3O +. And at least one type of aluminum silicate And / or at least one type of synthetic silica And / or at least one type of calcium silicate And / or at least a silicate of one type of monovalent salt And / or sodium silicate and / or potassium silicate and / or lithium silicate, and / or at least One of the strongest aluminum hydroxide and / or at least sodium and / or potassium. One kind of aluminate And where it is less than 0.1% by weight the silicate of monovalent salt, sodium, potassium or lithium silicate or a mixture of those substances, which is compared with weight. Dry calcium carbonate And where it has a pH greater than 7.5, measured at 20? C 2. The mineral pigment according to claim 1, where calcium carbonate is natural calcium carbonate or a mixture of calcium. Natural carbonates with talc, kaolin, titanium dioxide, magnesium oxide, or any inert mineral associated with medium to strong H3O + ionizers or calcium carbonate is calcium. Selected natural carbonates from the group of marble, calcite, lime, dolomite or their mixtures 3. Mineral pigments according to claim 1 or 2, where the ionic H3O +, medium to strong Selected from the medium to strong acid group of their mixtures which either gave the H3O + ions, or were selected from the group of acids which had a pKa less than or equal to zero at 22? C or were selected. From the group of sulfuric acid, hydrochloric acid or a mixture of those substances. Or, the medium-strong H3O + ion was selected from the acid group with a pKa between 0 and 2.5 overall at 22? C, or which was selected from the H2SO3, HSO4-, H3PO4, oxalic acid group. A or a mixture of those substances, or selected from the group of acids which form bivalent cation salts, which are almost insoluble in water, which are said to have solubility. Less than 0.01% by weight or chosen from the acidic group bivalent calcium salt, which is almost insoluble in water, which is said to have a solubility of less than 0.01% by Page 2 weight of 9 pages 4. Mineral pigment according to any of Claim 1 to 3, which has a specific surface area of BET between 25m2 / g and 200m2 / g. According to ISO 9277 or between 30 m 2 / g and 80 m 2 / g or between 35 m 2 / g and 60 m 2 / g and median diameter, which is obtained by measurement with Sedigraph? 5100, between 0.1 And 50 μm or between 0.5 and 40 μm or between 1 and 10 μm 5. Acquias suspension of mineral pigments, where it contains mineral pigments according to B. Any one Of claims 1 to 4 6. Methods for producing mineral pigments in the dry state or in an acqueais suspension containing The product originated in the initial source by repeated and / or repeated reactions during Calcium carbonate and reaction products or carbonate products containing CO2 gas which occurs in Starting source And / or derived from external payments And reaction products or products Carbonates with one or more moderate to strong h3o + ions. And at least one type of aluminum silicate And / or at least one type of synthetic silica And / or at least The most calcium One type of silicate And / or at least a silicate of one type of monovalent salt And / or sodium silicate and / or potassium silicate and / or lithium silicate, and / or at least The best of aluminum One type of hydroxide And / or, at the very least, sodium and / or potassium One kind of aluminate Which is less than 0.1% by weight the silicate of monovalent salts, potassium or lithium silicate or their mixtures, compared with the dry weight of calcium carbonate, where it is composed of the process Following: a) Actions of calcium carbonate in the activity phase with medium to strong H3O + ionic agents. Or donors and CO2 gas action occurring in the source and / or derived from external supply, for which the action is part of steps a) b) filling Before and / or simultaneously with step a), containing at least one aluminum silicate and / or at least one synthetic silica. And / or at least calcium One type of silicate And / or at least Silicates of one monovalent salt and / or sodium silicate and / or potassium silicate and / or lithium silicate, and possibly. Is the addition of sodium And / or potassium Aluminates first and / or simultaneously, page 4 of the number 9. Page 9. Methods of producing mineral pigments according to any of the claims 6 to 8, where the quantity The moles of the H3O + ionic medium at medium to strong, associated with the total number of moles of CaCO3, are between 0.05 and 1, or between 0.1 and 0.5 1 0. Which method of production of mineral pigments follows? One of the claims 6 to 9, where the temperature During phase a) of action is between 5? C and 100? C, or between 65? C and 90? C 1 1. Method of producing mineral pigments according to claim 10, where, during Stages a) to c) of action are from 0.01 h to 24 h or during steps a) to c) of action are from 0.2 h to 6 h 1 2. Methods of producing mineral pigments. According to the claim 11, where between one hour and twenty-four hours after the cessation of the action, a pH greater than 7.5 and the amount of silicate of monovalent salt silicate, sodium, potassium or lithium silicate or its mixture Of those substances was less than 0.1% by weight compared to the dry weight of calcium carbonate, or where, between one hour and five hours after the cessation of the action, pH greater than 7.5 and the silicate content of Monovalent salts, sodium, potassium or lithium silicate or their mixtures less than 0.1% by weight compared to dry weight of calcium carbonate 1 3. Method of producing mineral pigments based on Any one of claim 6 to 12, where it is provided in the Accident cycle at low dry matter concentrations, medium or strong or for the amount of matter. The dry matter is between 0.3% and 80% by weight or between 15% and 60% by weight. 1 4. Method of producing mineral pigments according to any of Claim 6 to 13, where b) is the 0.1% to 25% addition, or 5 to 10% dry weight addition compared to Dry weight of calcium carbonate 1 5. Method of producing mineral pigments according to one of the claims 6 to 14, where step d) is applied from 0.05% to 5.0% by dry weight. Of anionic electrolyte It is chosen from the class of homopolymer or copolymer in an acidic, non-neutralized, partially neutralized state. Or completely neutralizing the unsaturated monomer. Ethylene with a functional group of mono-carboxylic acrylic or methacrylic acid or diacid hemiester, C1 to C4 monoeste. Maleic Jors Or itaconacids or their mixtures, p. 6 of 9 p (chemical structure), in which: m and P represent the number of alkyline units. Oxides less than or equal to 150, n represents the number of ethylene oxide units that are less than or equal to 150, - q is the integer that is at least equal to 1 and until 5 <(m + n + p) q <150 or is Until 15 <(m + n + p) q <120, R1 represents hydrogen or radical methyl or ethyl, R2 represents hydrogen or radical methyl or ethyl, R represents radical, which There is an unsaturated function group that can be polymerized, or a function group that is not Saturated, polymerized, belonging to vinyl group and acrylic group, methacrylic, maleic, itaconic, chrotonic, or sensitive. Nilphthalic Ester As in Group of urethane unsaturates, acryl urethane, methacryl urethane, aa \ 'dimethyl-isopropyl-benzene. Syyl urethane, or allyl urethane And a group of allil or vinyl ether either replaced or not, or a group of ethylene unsaturated amides or emides, R \ 'instead of hydrogen or radical. Hydrocarbons, which have 1 to 40 carbon atoms or substitute radical hydrocarbons which contain 1 to 12 carbon atoms or radical hydrocarbons which contain 1 to 4 carbon atoms or a mixture of multiple monomer of formula (I) c ) Probably at least one monomer of the acrylamide or methacrylamide type. Or their derivatives, N- [3- (dimethylamino) propyl] acrylamide or N- [3- (dimethylamino) propyl]. Methacrylamide And mixtures of those substances Or at the very least Monomer at each Biodegradable in one non-aqueous solvent, alkyl acrylate or methacrylate, unsaturated ester, N- [2- (dimethylamino ) Ethyl] methacrylate, or N- [2- page 7 of 9 pages (dimethyl amino) ethyl] acrylate, vinyl, vinyl acetate, Vinyl pyrrolidone, styrene, alpha methyl styrene And their derivatives, or at least One cat ionic monomer or quaternary ammonium, [2- (methacryloyloxy) ethyl] trimethyl ammonium chloride or sulfate. , [2- (acryloyloxy) ethyl] trimethyl ammonium chloride or sulfate, [3- (acrylamido) propyl] trimethylammonium M chloride or sulfate, dimethyl dillyl ammonium chloride or sulfate, [3- (methacrylamido) propyl] trimethyl ammonium chloride or sulfate, or Minimal one organofluorinated Or organosylated Monomer or a mix of several of these monomers. d) Probably, at the very least. One monomer that has undergone at least two ethylenic unsaturations, referred to in the remainder of Application as a monomer in crosslinking 1 8. Mineral pigments in dry conditions or in actuase suspensions containing products. It takes place in the initial source by repeating the reaction twice. And / or multiple Times between calcium carbonate and reaction products or carbonate products containing CO2 gas which occurs in the initial source And / or derived from external payments And reaction products or carbonate products containing medium to strong H3O + ionic agents. One or more of a kind And at least aluminum One type of silicate And / or at least one type of synthetic silica And / or at least one type of calcium silicate And / or, at the very least, the silicate of one monovalent salt and / or sodium silicate and / or potassium silicate and / or lithium silicate, and / or such Minimal aluminum One type of hydroxide And / or at least sodium And / or potassium One type of aluminate, where it is obtained by means of any of Claim 6 to 17 1. 9. A mineral pigment according to claim 18, where it has a specific surface area. BET between 25 m2 / g and 200 m2 / g, measured in accordance with ISO 9277, or between 30 m2 / g and 80 m2 / g, or between 35 m2 / g and 60 m2 / g. And median diameter This was obtained by measurement with Sedigraph? 5100, between 0.1 and 50 μm, or between 0.5 and 40 μm, or between 1 and 10 μm 2 0. Acquyase suspension of mineral pigments in accordance with claim 18 or 19 any one Which was obtained by step d), where the mineral pigment has a specific surface area of BET between 25 m2 / g and 200 m2 / g measured in accordance with ISO 9277, or between 30 m2 / g. . And 80 m 2 / g or between 35 m 2 / g and page 8 of the number 9 p. 60 m 2 / g and median diameter. This was obtained by measuring with Sedigraph? 5100, between 0.1 and 50 μm, or between 0.5 and 40 μm, or between 1 and 10 μm and where the suspended matter contained a dry matter content of between 0.3% and 80%, or between 15. % And 60% and where it is at least Anionic electrolyte 0.05% to 5.0% by dry weight at Compare with dry weight of calcium carbonate. 2. 1. Acquias suspension according to claim 20, where anionic electrolyte is selected. Derived from in the anionic electrolyte group pursuant to claim 15 2 2. Acquyce suspension of the mineral pigment according to claim 18 or 19, where Make Obtained by step e), where the mineral pigment has a specific surface area BET between 25 m2 / g and 200 m2 / g, measured in accordance with ISO 9277, or between 30 m2 / g and 80 m 2 / g or between 35 m 2 / g and 60 m 2 / g and median diameter. This was obtained by measuring with Sedigraph? 5100, between 0.1 and 50 μm, or between 0.5 and 40 μm, or between 1 and 10 μm and where the suspended matter contained a dry matter content of between 0.3% and 80%, or between 15. % And 60% and where it contains at least one catalytic ionic 0.1% to 5.0% by dry weight at Compare with dry weight of calcium carbonate 2. 3. Acquias suspension according to claim 22, where cat-ionic electrolyte Was selected from the category of cat-ionic electrolytes in accordance with Claim 16 2 4. Acquyce suspension of mineral pigments according to claim 18 or 19, which Was obtained in accordance with step f) where the mineral pigment There is a BET specific surface area between 25m2 / g and 200m2 / g, measured in accordance with ISO 9277, or between 30 m2 / g and 80 m2 / g or between 35 m2 / g and 60 m 2 / g and median diameter, which was obtained by measurement with Sedigraph® 5100 between 0.1 and 50 μm, or between 0.5 and 40 μm or between 1 and 10 μm and where the suspension contained dry matter content. Between 0.3% and 80%, or between 15% and 60%, and where it is at least One mild anionic electrolyte 0.05% to 5.0% by dry weight compared to dry weight of calcium carbonate 2 5. Accident suspension according to claim 24, where Which is a weak anionic electrolyte Selected from among the mild anionic electrolytes according to claim 17, page 9, of the number 9, page 2, 6 mineral pigments according to one of the claims 18. or 19 where it is in dry form when step g) of a method in accordance with any clause 6 to 17 is provided. 2. 7. Use of mineral pigments in accordance with any of the above. Claims 1 to 4, 18, 19 or 26 as a mass-increasing filler in the production of a filler to increase the mass of uncoated sheets. And / or as the base of the coating mix formula in the action on the paper surface. And / or paper coating. 2 8. Use of the Acquiese suspension in accordance with any of the Clause 5, 20 to 25 as a mass-enhancing additive in the production of a mass-increasing filler. A sheet of uncoated paper And / or as the base of the coating formula in performing paper substrates and / or Paper coating 2. 9. Paper for inkjet printing, where it contains mineral pigments based on Any of the claims 1 to 4, 18, 19 or 26 in mass and / or in coatings 3 0. Paper for ink jet printing, where it contains an actuation suspension. Any of the claims 5, 20 to 25 in mass and / or in coatings ------------ 1. Mineral pigment with calcium carbonate, The only characteristic in it is that There are products born Up in the starting source By the reaction that repeats twice And / or multiple times between calcium carbonate and the said carbonate reaction product or product and gas-fired CO2 that occurs in the initial source. And / or which is from External payments And such reaction products or carbonate products And one or more types of H3O ions. And at least one type of aluminum silicate And / or at least one type of synthetic silica And / or at least one type of calcium silicate, and / or at least Silicates of one type of monovalent salt, such as sodium silicate and / or potassium silicate and or lithium silicate, to be used are such as sodium silicate and / or at least aluminum hydroxide. One type of oxide and / or at least sodium and / or potassium alu. One kind of laminate And in it is less than 0.1% by weight. Silicate of monovalent salts such as sodium, potassium or lithium silicate or mixtures of those substances, that should be used is, for example, a possible sodium silicate. According to the dry weight of calcium carbonate and which characterizes it to have a pH greater than 7.5, measured at 20 ํ C 2. Mineral pigments according to claim 1, which characterize in That said, calcium carbonate is natural calcium carbonate or a mixture of calcium. Natural carbonates with talc, keolin, titanium dioxide, magnesium oxide or other minerals that are inert when confronted with a very moderate H3O ions. 3. The mineral pigments according to the claim. 2 which looks unique in That said, natural calcium carbonate was selected from the reeds. A group of marble, calcite, lime, colomite or a mixture of them 4. a mineral pigment according to one of Claims 1 to 3, which characterizes the H3O ionizer. Medium to strong acid is selected from the group of medium to strong acids or mixtures of those substances that give the H3O + ions 5. mineral pigments according to one of claims 1 to 4, which characterizes It was only possible that the strong acid to be used was selected from the acid group, which has a pKa less than or equal to zero at 22 ° C, and more specifically, which was selected from. In the group of sulfuric acid, hydrochloric acid Or mixtures of those substances, and which characterize them in them, that the substance gives on H3O at medium strength Selected from the acid group, which has a pKa between 0 and 2.5, all 22 ํ C, and more specifically, This can be selected from the H2SO3, HSO4, H3PO4, oxalic acid or a mixture of those substances. And although preferably in the acid class, bivalent cation salts, such as calcium, are almost insoluble in water. Its solubility is less than 0.01% by weight. 6. Mineral pigments according to any of the claims 1 to 5, which can be characterized as The BET specific surface area is between 25m2 / g and 200m2 / g, measured in accordance with ISO 9277, where it should be between 30m2 / g and 80m2 / g and where it should be used heavily. Is between 35 m 2 / g and 60 m 2 / g and the median diameter. This was obtained by Sedigraph TM 5100 measurements between 0.1 and 50 μm, preferably between 0.5 and 40 μm and preferably between 1 and 10 μm. A mineral pigment that identifies it as it has Mineral pigments according to one Clause 1 to 6. 8. Methods for producing mineral pigments in the dry state or in dry state. The actuation type suspension, which There is a product that occurs in its initial source by a double and / or repeated reaction between calcium carbonate and the reaction product, or Such carbonate products with gaseous CO2 formed in the initial source. And / or which is derived from external distribution and reaction products, or Such carbonate products With medium to strong H3O ions One or more types and at least one type of aluminum silicate And / or at least One type of synthetic silica And / or at least one type of calcium silicate And / or at least Silicate of salt One monovalent, such as sodium silicate and / or potassium silicate and / or lithium silicate, which should be used is such as sodium silicate and / or at least one aluminum hydroxide. Type and / or at least Sodium and / or potassium One kind of aluminate Which is less than 0.1% by weight silicate of monovalent salts such as sodium, potassium or lithium silicate or a mixture of those substances, preferably such as sodium silicate that is based on weight. Dryness of calcium carbonate, which characterizes in It can be said to include the following steps: a) Treatment of calcium carbonate in the water cycle with moderate to medium to H3O ions. More or more than one substance And CO2 gasified treatment, originating in source and / or from external supply, treatment which is A) b) pre-filling and / or simultaneously with step a) at least one type of aluminum silicate. And / or at least one synthetic silica And / or at least one type of calcium silicate And / or, at the very least, the silicate of one monovalent salt, such as sodium silicate and / or potassium silicate and / or lithium silicate, to be used, such as sodium silicate and where Probably the addition of sodium and / or potassium. Aluminate in C) Potential is base addition, preferably bivalent ionized bases, preferably lime and / or calcium carbonate in dry form or additive. Acquyte suspensions, possibly containing a Weak anionic dispersion And / or anionic cat-ionic, one or more anionic type d) It is possible to add an anionic anionic suspension. Products obtained in step b) or c) at concentrations Of matter between 1% and 80% dry matter, which is possibly the least possible One possible anionic electrolyte e) is to insert the product obtained in step b) or c) in a suspension. Acquyascat ionic by minimum addition One possible f) type of cationic electrolyte is the addition of a product obtained in step b) or c) in a suspension. Weak anionic by adding at least One kind of weak anionic electrolyte. G) Possible drying after one of the steps c) to f) 9. Method of producing mineral pigments based on Claim 8, which characterizes in it, is that calcium carbonate is natural calcium carbonate. Or mixtures of natural calcium carbonate with talc, kaolin, titanium dioxide, magnesium dioxide or other minerals which are inert in the face of a medium to high H3O ions. 1 0. Method Of the mineral pigment production according to claim 9, which characterizes in it natural calcium carbonate Select from marble, calcite, lime, colomite or their mixtures: 1. Method of producing mineral pigments according to one of Claims 8 to 10, which Look for the characteristics in It can be said that either medium to strong H3O ions or more than one of them were selected from the group of medium to strong acids or a mixture of those substances that gave the H3O ions 1 2. Method Of the production of mineral pigments in accordance with one of Claims 8 through 11, which characterizes the Therefore, the strongest acid to use is selected from the acid group, which has a pKa less than or equal to zero at 22 ° C, and more specifically, that is selected from the subfuric acid group, acid Hydrochloric acid or a mixture of those substances And which find unique characteristics in it It can be said that the medium-strong H3O ionizer or ionizer was selected from the acid group with a pKa between 0 and 2.5 overall at 22 ° C, and, more specifically, was selected from the H2SO3 group, HSO4, H3PO4, oxalic acid or a mixture of them. Or even if that should More used is In the acid group, bivalent cation salts such as calcium are almost insoluble in water, which can be said to have a solubility of less than 0.01% by weight. 1 3. Method of pigment production. Which is a mineral according to one of Claims 8 to 12, which looks unique in That is acidic or acidic It can be mixed with strong acids or strong acids. 1 4. Method of producing mineral pigments according to one claim 8 to 13, which characterizes in Then that the quantity by mole The medium to strong H3O ions that satisfy the total number of moles of CaCo3 are between 0.05 and 1, preferably between 0.1 and 0.5. 1. 5. Methods of producing mineral pigments. According to one of claims 8 through 14, which looks unique in Therefore, steps a) and / or step b) can be repeated several times 1 6. Methods of strong pigment production according to one of claims 8 to 15, which characterizes in Then that the temperature in During the a) process of the process is between 5 ํ C and 100 ํ C, and preferably between 65 ํ C and 90 ํ C 1 7. Method of mineral pigment production according to claim 16. Which can find the characteristics in it that in Between steps a) to c) of the process is from 0.01 hrs to 24 hrs 1 8. Methods of producing mineral pigments according to claim 17, which characterizes them in Between steps a) to c) of the process is from 0.2 hours to 6 hours 1. 9. Methods for producing mineral pigments according to claim 17, which characterizes them as Between an hour and yi Fourteen hours After the completion of the process, pH greater than 7.5 and the amount of monovatent salt silicate such as sodium, potassium or lithium silicate or their mixtures is less than 0.1% by weight. It is in accordance with the dry weight of calcium carbonate 2 0. Method of producing mineral pigments according to claim 19, which characterizes therein Between one hour and five hours after the end of the process, pH greater than 7.5 and the content of silicate, monovalent salts such as sodium, potassium or lithium silicate, or their mixtures is less than 0.1% by weight. 2 1. Method of producing mineral pigments according to one claim 8 to 20, which characterizes the properties of calcium carbonate. That has been prepared In the water cycle at dry matter concentrations at low, medium or strong, where the dry matter content should be between 0.3% and 80% by weight, preferably between 15% and 60% 2 2. Method of mineral pigment production according to one of Claims 8 to 21, which characterizes in That said, step b) is to add 0.1% to 25%, preferably 5 to 10% by dry weight possible. By dry weight of calcium carbonate 2 3. Method of production of mineral pigments according to one of claims 8 to 22, which characterizes in That said, the d) procedure is from 0.05% to 5.0% by dry weight of the electrolyte. Anionic type Which can be selected from the homopolymer group Or copolymer In an acidic state which neutralizes Completely or which makes Partially neutral Unbiased Of Montammer at Unsaturated Ethylene with one carboxylic functional group, such as acrylic or amethacrylic acid or diacid hemiester, such as C1 through C4. Maleic mono esters Or itaconic acid, or a mixture of those substances, or with two carboxylic function groups Which was chosen from among the non-saturated monomers An ethylene with two groups of carboxylic functions, such as chrotonic, isochrotonic, cinnamic, itaconic or maleic acid or anhydrous. Carboxylic acid drives, such as maleic anhydrides, or with a sulfonic function group. Which was chosen from among the ethylene-unsaturated monomers with Sulfonic functions, such as acrylamido-methyl-propane sulfonic acid, sodium methalyl sulfonate, vinyl sulfonate. Anic acid and styrene sulfonic acid or with a phosphoric function group. Selectable From the group of ethylene unsaturated monomers with phosphoric function groups such as vinyl phosphoric acid, ethylene glycol methacrylate. Rylate Phosphate, Propylene Glycol Methacrylate Phosphate, Ethylene Glycol Acrylate Phosphate, Propylene Glycol Acrylate Phosphate and Ethoxylate. Of those substances or that have a phosphonic function group Which was chosen from among the monomers that were not saturated Ethylene with phosphonic functional groups such as vinyl phosphonic acid or their mixtures or polyphosphates 2 4. Methods of production of pigments that Is a mineral according to one of Claims 8 to 23, which looks unique in That said, step e) is applied from 0.05% to 5.0% by dry weight of the cat-ionic electrolyte. This can be chosen from the homopolymer group or the unsatisfied cat-ionic copolymer copolymer. Ethylene pathway Or quaternary ammonium, such as [2- (methacryloyloxy) ethyl] trimethyl ammonium sulfate or chloride, [2- (acryloyl out S) ethyl] trimethyl ammonium chloride or sulfate, [3- (acrylamido) propyl] trimethyl ammonium chloride or sulfate, dimethyl diethyl Lyl ammonium chloride or sulfate or [3- (methacrylamido) propyl] trimethyl ammonium chloride or sulfate. 2 5. Method of producing mineral pigments based on. One of the claims 8 through 24, which looks unique in That said, step f) used 0.05% to 5.0% by dry weight of the anhydrous electrolyte. Soft ionic Which can be selected from the group of copolymers that Soluble in water and weak ionic types, which include: a) at least One anionic A monster with a carboxylic function group, or Dicarboxylic or phosphoric fry or sulphonic Or a mixture of those substances; b) at least One sleep-ionic monomer, non-ionic monomer which consists of The least One monomer of the formula (I): (Chemical formula) (I), where: - m and p represent the number of alkyline units. Oxides less than or equal to 150 - n represent the number of ethylene amounts. Oxides are less than or equal to 150 - q is an integer that is at least 1 and 5 is less than (m + n + p) q is less than 150, and where 15 is less than (m + n + p) q. Less than 120 - R1 represents hydrogen or radical methyl or ethyl - R2 represents hydrogen or radical methyl or ethyl - R represents radical, which has a polyunsaturated function group. Merrice Which should be used is belonging to the vinyl group and is in the class of acrylic, methacrylic, maleic, itaconic, chrotonic or vinyl flathylase. As well as in the class of urethane unsaturates such as acryl urethane, methacryl urethane, alpha-alpha \ Dimethyl-isoprophenyl-benzyl urethane Or allyl urethane And belong to the allil or vinyl ether group with or without or in the group of ethylene unsaturated amides or amides - R \ 'instead of hydrogen or radi. Calc hydrocarbons, which have 1 to 40 carbon atoms, and should be used as substitutes for radical hydrocarbons, which have 1 to 12 carbon atoms, and preferably as a replacement for radical hydrocarbons, which have 1 to 4 carbon atoms or mixtures. Of the least possible monomers of the formula (I) c). One monomer of acrylamide or methacrylamide, or its derivatives, such as N- [3- (dimethylamino) propyl] acrylamide. N- or N- [3- (dimethylamino) propyl] methacrylamide And mixtures of those substances Or at the very least Monomer soluble in one non-aqueous solvent such as alkylacrylate or methyl acrylate, unsaturated ester such as N- [2- ( Dimethyl amino) ethyl] methacrylate or N- [2- (dimethyl amino) ethyl] acrylate, vinyl such as vinyl acetate, Vinyl pyrrolidone, styrene, alpha methyl styrene And their derivatives Or at the very least One cat ionic monomer or ammonium quaternary, such as [2- (methacryloyloxy) ethyl], trimethylamonium chloride or sulfate. , [2- (acryloyloxy) ethyl] trimethyl ammonium chloride or sulfate, [3- (acrylamido) propyl] trimethyl al. Ammonium chloride or sulfate, dimethyl dillyl ammonium chloride or sulfate, [3- (methacrylamido) propyl] trimethyl ammonium chloride or sulfate. Or at the very least One organ, no fluorinated Or organo-influenced Monomer or a mixture of Many of these monomers d) possibly be The least One monomer that has undergone at least two ethylenic insaturations, referred to in the remainder of the application. Used as a monomer in crosslinking 2 6. Mineral pigments in the dry state or in actin suspension. Quies, whose products were born It is generated in the source, initiated by a double and / or repeated reaction between calcium carbonate and the reaction product. Or such carbonate products with gaseous CO2 formed in the initial source. And / or derived from external payments And reaction products Or products Such carbonate With medium to strong H3O + ions One or more types and at least one type of aluminum silicate And / or at least One type of synthetic silica and / or at least one type of calcium silicate And / or at least Silicate of salt One monovalent, such as sodium silicate and / or potassium silicate and / or lithium silicate, which should be used is such as sodium silicate and / or at least one aluminum hydroxide. Type and / or at least Sodium and / or potassium One kind of aluminate Which can find characteristics in it That it was acquired by any of the aforementioned clauses 8 to 25 2 7. Mineral pigments according to claim 26, which look for specific characteristics. There is a BET specific surface area between 25m2 / g and 200m2 / g measured in accordance with ISO 9277, where it should be between 30 m2 / g and 80 m2 / g, and where should. It is most commonly used between 35 m 2 / g and 60 m 2 / g and the median diameter obtained by sedigraph TM 5100 measurements between 0.1 and 50 μm, preferably between 0.5 and 40 μm and where. It is preferable to use between 1 and 10 μm 2. 8. Acquiese suspension of a mineral pigment according to one of Claim 26 or 27 obtained in accordance with procedure d). It was found that the mineral pigment had a specific surface area BET between 25m2 / g and 200m2 / g, measured in accordance with ISO 9277, where it should be between 30m2 / g and. 80 m 2 / g and where it should be used very much, between 35 m 2 / g and 60 m 2 / g and the median diameter obtained by sedigraph TM 5100 measurements between 0.1 and 50 μm, where should It is between 0.5 and 40 μm and where it should be used very much, between 1 and 10 μm and in that substance the dry matter content is between 0.3% and 80%, where Its use is between 15% and 60% and there is 0.05% to 5.0% by dry weight. That is according to the dry weight of calcium carbonate of at least One anionic electrolyte 2. 9. Acquyte suspension according to claim 25, which can be characterized as Selective anionic electrolyte It is obtained from the electrolyte anionic pigment according to Claim 23 3 0. Acquyte suspension of mineral pigments according to clause. Any of Claim 26 or 27, obtained in accordance with procedure e), which characterizes therein, is that the mineral pigment has a BET specific surface area of 25 m2 / g. And 200m2 / g which is measured in accordance with ISO 9277, where it should be between 30m2 / g and 80m2 / g, and where it should be used more strongly is between 35m2 / g and 60m2. / G and median diameter This was obtained by Sedigraph TM 5100 measurements between 0.1 and 50 μm, where it would be preferable to be between 0.5 and 40 μm and where it would be most preferable to be between 1 and 10 μm. The dry matter is between 0.3% and 80%, preferably between 15% and 60%, and in there is 0.05% to 5.0% by dry weight. That is according to the dry weight of calcium carbonate of at least One type anionic electrolyte 3 1. Acquyte suspension according to claim 30, which can be characterized in that Cat-ionic electrolytes are selected from the category of cat-ionic electrolytes according to claim 24 3. 2. An actuase suspension of a mineral pigment according to one of Clause 26 or 27, obtained in accordance with step f), which characterizes in it, that the pigment is The mineral has a BET specific surface area between 25m2 / g and 200m2 / g, measured in accordance with ISO 9277, where it should be between 30m2 / g and 80m2 / g and where it should be used. The maximum diameter is between 35 m 2 / a and 60 m 2 / g and the median diameter obtained by sedigraph TM 5100 measurements between 0.1 and 50 μm, preferably between 0.5 and 40 μm and where. It should be used very much, between 1 and 10 μm, and in that the suspension has a dry matter content of between 0.3% and 80%, where it should be between 15% and 60% and in which 0.05% to 5.0%. By dry weight That is according to the dry weight of calcium carbonate of at least One type of weak anionic electrolyte 3 3. Acquyte suspension according to claim 32, which can be characterized in that A weak anionic electrolyte was selected from the category of weak anionic electrolytes according to claim 25 3. 4. A mineral pigment according to any of Clause 26 or 27, which looks for its characteristics. Can be obtained in dry form when step g) of the method in accordance with any of Clause 8 to 25 is provided 3. 5. Utilization of mineral pigments in accordance with any one of Claims 1 through 6, 26 to 27 and 34 as a mass extender in the production of uncoated paper sheets. And / or that is Base of coating mixtures for floor treatment Paper surface and / or paper coating 3 6. Utilization of the Acquyte suspension according to one item. Which of the clauses 7 and 28 to 33 is a filler? The mass produced is an uncoated sheet of paper and / or the base of the coating formulation for surface treatment. Paper and / or paper coating 3 7.Paper for printing with ink spray Characteristic In it that there is a pigment that is Minerals according to any of the claims 1 to 6, 26 to 27 and 34 in mass and / or in coatings 3. 8.Paper for printing with ink spray Characteristic In it that there is a substance Acquyte suspension pursuant to any of Claims 7 and 28 to 33 in mass and / or in coating.