CN1071931A - The preparation of copolymer latices - Google Patents
The preparation of copolymer latices Download PDFInfo
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- CN1071931A CN1071931A CN92112608A CN92112608A CN1071931A CN 1071931 A CN1071931 A CN 1071931A CN 92112608 A CN92112608 A CN 92112608A CN 92112608 A CN92112608 A CN 92112608A CN 1071931 A CN1071931 A CN 1071931A
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Abstract
The present invention relates to prepare the method for copolymer latices.This copolymer latices can be used as the tackiness agent in the paper coating composition, the overlay paper of its preparation has good balance physical property and (comprises bond strength, water tolerance, gloss of ink absorption and paper etc.), this copolymer latices also can be further as carpet mount agent and tackiness agent.
Description
The present invention relates to the preparation method of copolymer latices, comprise the ingenious method of utilizing specific chain-transfer agent to make the emulsion polymerization and adding chain-transfer agent.More specifically say, the present invention is meant the method for preparing copolymer latices, copolymer latices can be used as the tackiness agent for preparing paper coating composition, the paper of said composition preparation has good physical property (as bond strength, water tolerance, ink absorption, the gloss of paper etc.), said composition also can be used as mount agent or carpet tackiness agent.
Along with to the increasing sharply of overlay paper demand, the preparation speed of overlay paper has also speeded, and the increase of printed matter has also impelled speeding of print speed.Particularly in offset printing, this trend becomes more and more obvious.
Therefore, the copolymer latices as tackiness agent as one of composition of paper coating composition need have following character.
The first, have good bond strength.When bond strength is not enough, the mechanical force that acts on the surface of overlay paper in printing process will make pigment come off and make coating and basic paper is peeled off.Print speed is fast more, and the quantity of overlapping printing is many more, and the degree of this paper surface distress is also big more.Therefore, tackiness agent is necessary having well bonding between the bonding granules of pigments and between coating and the basic paper.
Its two, have excellent water tolerance.Particularly in offset printing, need to use " wet water ", need there be moisture-proof role on the Tu Cengshi surface under the effect of printing machinery power, promptly have water tolerance.
And, under the fast condition of quickening seal, compare with common tackiness agent, should have better black absorptivity.
In addition, overlay paper not only has above-mentioned character, but also should have the gloss of gloss characteristic such as paper.
As mentioned above, overlay paper need have bond strength, water tolerance, and ink absorption and paper gloss characteristic, and the overlay paper of technology preparation in the past all can not have good above-mentioned characteristic simultaneously.Because bond strength, water tolerance, the gloss characteristic of ink absorption and paper is normally conflicting.
Known will be adjusted to lower concentration as the gel content of the emulsion copolymer of tackiness agent the time, can improve water tolerance, but the reduction of gel content can cause again reducing bond strength and ink absorption, and when further reducing gel content, can cause water tolerance to descend again.And for example, when increasing the emulsion copolymer granular size or improving glass transition temp, can improve ink absorption and paper gloss characteristic, but can bring a lot of difficult technical problems, promptly bond strength and water tolerance all reduce.
The present inventor has furtherd investigate the problems referred to above in the former technology, found that, (comprise conjugate diene monomer at monomer mixture, the ethylenic unsaturation monomer, the ethylenic unsaturation carboxylic acid monomer) in the emulsion polymerization, in first step, use the wetting ability chain-transfer agent, at second step (with next step or several steps following) polymerization use hydrophobic chain transfer agent, obtain copolymer latices, it can be used for having good smooth performance (as bond strength with generation in the paper coating composition, water tolerance, ink absorption and paper gloss etc.) overlay paper.Find that at this further research on basis has caused of the present invention finishing.
Therefore, the present invention relates to the preparation method of copolymer latices, it is by monomer mixture (is comprised (1) at least a conjugate diene monomer, (2) at least a ethylenic unsaturation carboxylic acid monomer, (3) at least a ethylenic unsaturation carboxylic acid monomer) emulsion polymerization carries out, and this method comprises
(A) in the presence of the wetting ability chain-transfer agent, the above-mentioned monomer mixture emulsion polymerization of a part is obtained copolymer latices, then
(b) in the presence of above-mentioned copolymer latices and hydrophobic chain-transfer agent, with remaining monomer mixture emulsion polymerization.
The conjugate diene monomer of Shi Yonging (1) is included in monomer commonly used in the latex production in the present invention, as 1,3-butadiene, isoprene and chlorbutadiene, these monomers (1) can use separately or two or more together use, wherein, preferred especially 1,3-butadiene.
The purpose of monomer (1) provides has the polymerisate of elasticity and film toughness preferably.Say that for total amount of monomer the usage quantity of monomer (1) is the 10-80% weight ratio, preferred 20-60% weight ratio, when the amount of monomer (1) was less than 10% weight ratio, overlay paper can not have enough bond strengths usually.On the contrary, when usage quantity surpassed 80% weight ratio, water tolerance and binding property all descended.
The ethylenic unsaturation monomer (2) that uses among the present invention comprises, alkene aromatic compound, and as vinylbenzene, alpha-methyl styrene, Vinyl toluene, and p-methylstyrene; Acrylic or methacrylic acid alkyl ester compound, as methyl acrylate, ethyl propenoate, butyl acrylate, vinylformic acid 2-hydroxy methacrylate, methyl methacrylate, methacrylic acid 2-carboxyl ethyl ester, glyceral methacrylate; Acrylamide or methacrylic acid amide compound, they are unsaturated olefin(e) acid amide compounds, as acrylamide, Methacrylamide, N, N-dimethyl allene acyl glue, N hydroxymethyl acrylamide; Carboxylic acyl vinyl acetate is as vinyl-acetic ester; The acrylonitrile compounds, as vinyl cyanide, methacrylonitrile and α-Lv Bingxijing; The alkene unsaturated amino compounds, as vinylformic acid methylamino-ethyl (methyl) ester, vinylformic acid dimethylaminoethyl (methyl) ester, vinylformic acid dimethylamino-propyl (methyl) ester, vinylformic acid dibutyl amino ethyl (methyl) ester, dimethylaminoethyl (methyl) acrylamide, dimethylamino-propyl (methyl) acrylamide, 2-vinylpyridine and 4-vinylpyridine, and other ethylenically unsaturated monomers except (3) class monomer.These monomers can use separately or jointly.The particularly preferred vinylbenzene that has in the alkene aromatic compound, the vinyl cyanide in methyl methacrylate in the alkyl esters and the acrylonitrile compounds.
Say that for total monomer mixture the consumption of monomer (2) is the 20-90% weight ratio, preferred 40-80% weight ratio, when its consumption was very few, the water tolerance of overlay paper descended, and on the contrary, when consumption was excessive, hardness was too strong, and degree of adhesion descends.
Ethylenic unsaturation carboxylic acid monomer (3) used among the present invention comprises monocarboxylic acid, as vinylformic acid, and methacrylic acid and butenoic acid; Dicarboxylic acid and corresponding acid anhydrides, as toxilic acid, fumaric acid and methylene-succinic acid, and half ester, as the toxilic acid methyl esters, the methylene-succinic acid methyl esters, it can be used alone or as a mixture.
For the amount of total monomer mixture, the consumption of monomer (3) is the 0.2-12% weight ratio, preferred 0.5-8% weight ratio.When its consumption was too small, the mechanical stability of paper coating composition and the bond strength of overlay paper were not enough, and when consumption was excessive, the emulsion copolymer product had too high viscosity, inapplicable formation particle.
Be used for wetting ability chain-transfer agent of the present invention, specifically be meant its chain-transfer agent at 20 ℃ of every at least premium on currency solubilized 0.006mol, (claiming " chain transfer agents of Gao Rong " later on), and arbitrary chain-transfer agent all has this solubleness, this chain-transfer agent comprises the alkyl sulfhydryl that contains 4 following carbon, as sulfur alcohol and n-butyl mercaptan; The mercaptan carboxylic acid is as 2 mercaptopropionic acid or its corresponding salt (as ammonium mercaptoacetate); The sulfydryl dicarboxylic acid is as mercaptosuccinic acid or its corresponding salt (as, sulfydryl dicarboxylate); The alcohol that contains sulfydryl as 2 mercapto ethanol and 3-Mercapto-1, contains the ammonia of sulfydryl, as 2-sulfydryl second ammonia, contains the carboxylic acid of single sulphur compound, as the sulfo-oxalic acid, 3,3 '-thio-2 acid, or their corresponding salt; The alcohol that contains single sulfide as β-thiodiglycol, contains the ammonia of single sulfide, as, the sulfo-diethylamino, the carboxylic acid that contains disulphide, as dithio two oxalic acids, 2,2 '-dithio dipropyl acid, 3,3 '-dithio dipropyl acid and 4,4 '-dithio two butyric acid, or its corresponding salt; The acid anhydrides of single sulfide or disulphide as the thiodiglycolic acid acid anhydride, contains single sulfide and two sulphur personages' carboxylic acid and ammonia, as D-, L-or DL-Gelucystine contain the alcohol of halohydrocarbon, as chloromethane alcohol, ethylene chlorhydrin, 1-chloro-2-propanol, 2-or 3-chloro-n-propyl alcohol, 2-, 3-or 4-chloro-propyl carbinol and chlorine amylalcohol, the carboxylic acid that contains halohydrocarbon is as monochloro acetate, dichloro acetic acid, trichoroacetic acid(TCA), chlorine difluoroacetic acid, 2-chloropropionic acid, the 3-chloropropionic acid, 2 bromopropionic acid, 3-bromo-propionic acid, 2-bromine valeric acid, the chloro succsinic acid, chlorofumaric acid, chloromalonic acid, or its corresponding salt; With the chlorinated carboxylic acid acid anhydride, as the chloromaleic acid acid anhydride.
Be used for high dissolubility chain-transfer agent of the present invention, the compound with at least one carboxyl has good polymerization stability, and is difficult to produce thin condensation product, therefore is specially adapted to the present invention.
In polymerization procedure (a) and all polymerization procedure (b), for total monomer mixture, the consumption of the chain-transfer agent of high dissolubility is the 0.005-8% weight ratio, preferred 0.01-5% weight ratio, when its consumption is less than 0.005% weight ratio, bond strength and/or water tolerance are bad, and when its consumption during more than 8% weight ratio, bond strength descends.They can separately or be used in combination.
Hydrophobic chain transfer agent among the present invention is meant that specifically in 20 ℃ of every premium on currency solubleness is less than the chain-transfer agent of 0.006mol, (being called " not processable chain-transfer agent " later on), it can anyly use in the emulsion polymerization, and solubleness is less than the chain transfer agents of 0.006mol/L in the time of 20 ℃.It comprises, the alkyl sulfhydryl that contains at least 5 carbon, as hexylmercaptan, spicy thioalcohol, positive Dodecyl Mercaptan, tert-dodecyl mercaptan, positive 16 mercaptan and uncle's 16 step mercaptan, positive tetradecanylthioalcohol and uncle's tetradecanylthioalcohol, xanthan disulfide, as dimethyl xanthan disulphide, diethyl xanthan disulphide and di-isopropyl xanthan disulphide; Thiuram disulfide is as curing four or four basic thiurams, tetraethylthiuram disulfide, tetrabutylthiuram disulfide; Halohydrocarbon, as tetracol phenixin, carbon tetrabromide, ethylene dibromide, 2-ethylhexyl ethyl thioglycollic acid, α-Jia Jibenyixierjuwu, terpinolene, α-terpin, γ-terpin, kautschin, or the like.According to the present invention, the carboxylic acid mercaptoalkyl ester of formula I representative also can be used as the not chain transfer agents of processable,
R wherein
1Be monovalent alkyl, R
2Alkyl for divalence.
R
1The monovalent alkyl of expression comprises and contains 1-24, the alkyl of preferred 1-12 carbon, and as methyl, ethyl, propyl group, butyl and octyl group; Contain 3-12, preferred 4-8 carbon atom cycloalkyl, as cyclobutyl, cyclopentyl, cyclohexyl and Dimethylcyclohexyl contain 2-24, the alkene of preferred 2-4 or 12-24 carbon, as ethene, propylene and 2-butylene; Contain 2-18, the alkynes of preferred 2-4 carbon atom, as acetylene, propine and butine; Contain 6-12, the aryl of preferred 6-10 carbon atom, as, phenyl, tolyl, naphthyl; Contain 6-12, the aralkyl of preferred 7-11 carbon, as benzyl, styroyl and menaphthyl.R
2The divalent alkyl of expression comprises from above-mentioned R
1The monovalent alkyl of expression is removed the divalent alkyl that a H derives arbitrarily.R
1And R
2The alkyl of expression can have one or more substituting groups, and substituting group has halogen, the alkoxyl group of 1-8 carbon, 1-8 hydrophobic substituent such as carbon alkyl.
Above-mentioned halogen comprises fluorine, chlorine, and bromine etc., alkoxyl group comprises methoxyl group, oxyethyl group, propoxy-, butoxy etc., alkyl comprises methyl, ethyl, propyl group etc.
The typical case of the formula I not example of processable chain-transfer agent has propionic acid-2-sulfydryl ethyl ester, propionic acid 4-sulfydryl butyl ester, propionic acid-4-sulfydryl pentyl ester, propionic acid-5-sulfydryl pentyl ester, the propionic acid-own ester of 6-sulfydryl, propionic acid-8-sulfydryl monooctyl ester, butyric acid-2-sulfydryl ethyl ester, the butyric acid-own ester of 6-sulfydryl, butyric acid-8-sulfydryl monooctyl ester, valeric acid sulfydryl methyl esters, valeric acid-2-sulfydryl ethyl ester, the valeric acid-own ester of 5-sulfydryl, valeric acid-own the ester of 6-sulfydryl, caproic acid-2-sulfydryl ethyl ester, caproic acid-3-sulfydryl propyl ester, caproic acid-7-sulfydryl heptyl ester, caproic acid-8-sulfydryl monooctyl ester, caproic acid-12-sulfydryl ten diester, enanthic acid-3-sulfydryl ethyl ester, enanthic acid-4-sulfydryl butyl ester, enanthic acid-5-sulfydryl pentyl ester, enanthic acid-own the ester of 6-sulfydryl, enanthic acid-7-sulfydryl heptyl ester, enanthic acid-10-sulfydryl ester in the last of the ten Heavenly stems, sad sulfydryl methyl esters, sad-2-sulfydryl ethyl ester, sad-4-sulfydryl butyl ester, sad-the own ester of 6-sulfydryl, sad-8-sulfydryl monooctyl ester, sad-10-sulfydryl ester in the last of the ten Heavenly stems, sad-12-sulfydryl ten diester, sad-16-sulfydryl hexadecyl ester.
The processable chain-transfer agent does not comprise mercaptan carboxylic acid's alkoxyalkyl ester yet, more particularly the compound of following formula representative
R wherein
3Be divalent alkyl, R
4Be alkyl, OR
5Be alkoxyl group.
R
3The divalent alkyl of expression comprises the divalent alkyl described in the formula I, R
4The alkyl of expression comprises and contains 1-18, the alkyl of preferred 1-12 carbon, and as methyl, ethyl, propyl group, butyl, amyl group, hexyl, and octyl group, OR
5The alkoxyl group of expression comprises and contains 1-12, the alkoxyl group of preferred 1-8 carbon, and as methoxyl group, oxyethyl group, propoxy-, isopropoxy, butoxy, pentyloxy and hexyloxy.
R
3The divalent alkyl of expression, R
4The alkyl of expression, OR
5The alkoxyl group of expression can have one or more substituting groups, and substituting group has halogen, the alkoxyl group of 1-8 carbon, the hydrophobic substituents such as alkyl of 1-8 carbon.
Above-mentioned halogen comprises fluorine, chlorine, and bromine etc., alkoxyl group comprises methoxyl group, oxyethyl group, propoxy-, butoxy etc., alkyl comprises methyl, ethyl, propyl group etc.
The representative instance of the above-mentioned chain-transfer agent of formula II has the Thiovanic acid alkoxy alkyl, for example, Thiovanic acid methoxyl group ethyl ester, Thiovanic acid methoxyl group propyl ester, Thiovanic acid oxyethyl group propyl ester, Thiovanic acid methoxyl group butyl ester, Thiovanic acid oxyethyl group butyl ester, Thiovanic acid methoxyl group pentyl ester, Thiovanic acid oxyethyl group pentyl ester, Thiovanic acid propoxy-pentyl ester, the own ester of Thiovanic acid methoxyl group, the own ester of Thiovanic acid oxyethyl group, the own ester of Thiovanic acid butoxy, Thiovanic acid methoxyl group monooctyl ester, Thiovanic acid oxyethyl group monooctyl ester, the thiohydracrylic acid alkoxy alkyl is as thiohydracrylic acid methoxyl group methyl esters, thiohydracrylic acid methoxyl group ethyl ester, thiohydracrylic acid methoxyl group propyl ester, thiohydracrylic acid methoxyl group butyl ester, thiohydracrylic acid oxyethyl group butyl ester, thiohydracrylic acid methoxyl group pentyl ester, the own ester of thiohydracrylic acid methoxyl group, the own ester of thiohydracrylic acid butoxy, thiohydracrylic acid methoxyl group monooctyl ester, thiohydracrylic acid oxyethyl group monooctyl ester and thiohydracrylic acid oxygen in heptan base monooctyl ester; Sulfydryl butyric acid alkoxy alkyl, as sulfydryl butyric acid methoxyl group methyl esters, sulfydryl butyric acid methoxyl group ethyl ester, sulfydryl butyric acid oxyethyl group propyl ester, sulfydryl butyric acid methoxyl group butyl ester, sulfydryl butyric acid oxyethyl group butyl ester, sulfydryl butyric acid methoxyl group pentyl ester, sulfydryl butyric acid propoxy-polyhexamethylene, sulfydryl butyric acid oxyethyl group monooctyl ester, sulfydryl butyric acid methoxyl group ester in the last of the ten Heavenly stems, sulfydryl valeric acid alkoxy alkyl, as, sulfydryl valeric acid methoxy ethyl ester, sulfydryl valeric acid ethoxy butyl ester, the own ester of sulfydryl valeric acid oxyethyl group, sulfydryl valeric acid propoxy-ester in the last of the ten Heavenly stems, sulfydryl valeric acid oxyethyl group ten diester; The mercaptohexanoic acid alkoxy alkyl as, mercaptohexanoic acid methoxyl group propyl ester and mercapto caproic acid propoxy-heptyl ester; Sulfydryl enanthic acid alkoxy alkyl, as sulfydryl enanthic acid methoxyl group butyl ester, own ester of sulfydryl enanthic acid oxyethyl group and sulfydryl enanthic acid methoxyl group ester in the ninth of the ten Heavenly Stems, with the sad alkoxy alkyl of sulfydryl, as the sad ethoxy ethyl ester of sulfydryl, the sad methoxyl group propyl ester of sulfydryl, sulfydryl hot acyloxy butyl ester, the own ester of the sad oxyethyl group of sulfydryl and sulfydryl oxygen base in sad heptan monooctyl ester.
And, being difficult for also available two alkenyls of molten chain-transfer agent (two) thioether, it can be any (two) thioether, i.e. the type but homotype is also mixed.Sulfide or disulphide combining site all can link with the alkenyl with unsaturated link(age) respectively, typical example has vinyl thioether, the divinyl disulfide, diallyl thioether, diallyl disulphide, diisopropenyl thioether, the diisopropenyl disulfide, the dibutene thioether, dibutene disulfide, allyl group butenyl disulfide.Alkenyl can have the hydrophobic group substituting group, for example halogen (as fluorine, chlorine and bromine), alkoxyl group of 1-8 carbon (as methoxyl group, oxyethyl group and butoxy) and the alkyl that contains 1-8 carbon are (as methyl, ethyl and propyl group), they can independent or two or more common uses.Wherein, the alkyl sulfhydryl that contains 12-16 carbon is more preferably arranged (as n-dodecyl mercaptan, uncle's lauryl mercaptan, n-tetradecane base mercaptan, uncle's tetradecyl mercaptan, n-hexadecyl mercaptan, uncle's hexadecyl mercaptan), xanthan disulphide is (as dimethyl xanthan disulphide, diethyl xanthan disulphide), thiuram disulfide (as tetramethyl-thiuram disulfide, tetraethylthiuram disulfide), tetracol phenixin, mercaptan carboxylic acid's alkyl ester (as sulfydryl oxalic acid-2-ethyl heptyl ester), the 2-methyl styrene dipolymer, terpinolene, carboxylic acid mercaptoalkyl ester is (as sad-2-sulfydryl ethyl ester, caproic acid-2-sulfydryl ethyl ester), mercaptan carboxylic acid's alkoxy alkyl (as Thiovanic acid methoxyl group butyl ester, thiohydracrylic acid methoxyl group butyl ester), two alkenyls (two) thioether (as diallyl (two) thioether) etc.
At whole polymerization procedure (a) with (b), the consumption of processable chain-transfer agent should not be less than 99.5% weight ratio of total chain transfer dosage, preferably is less than 98% weight ratio.
When its consumption surpasses 99.5% or more for a long time, the bond strength of coated paper product, water tolerance, ink absorption, physical propertys such as the gloss of paper all have detrimentally affect.
Copolymer latices among the present invention can prepare by made the emulsion polymerization by ordinary method, and just with monomer mixture, polymerization starter, emulsifying agent and chain-transfer agent join in the water-soluble medium (as water).
The polymerization starter that uses in the emulsion polymerization of the present invention is not limited to any specific type, and it comprises inorganic peroxysulfate, as Potassium Persulphate, and Sodium Persulfate and ammonium persulphate; Organo-peroxide, as cumene hydroperoxide, benzoyl peroxide and isopropyl phenyl superoxide, and azo initiator, as Diisopropyl azodicarboxylate, they can use separately or jointly.Wherein, from the polymerization-stable viewpoint, preferred persulphate, as Potassium Persulphate, Sodium Persulfate and over cure ammonium are preferred.
When with reductive agent, as sodium disulfide or ferrous sulfate, when using jointly, above-mentioned polymerization starter also can be used as the reductionoxidation polymerization initiator.
Among the present invention, the consumption of polymerization starter is the 0.1-5% weight ratio of total monomer mixture amount, preferred 0.2-2% weight ratio.
The emulsifying agent that uses in the emulsion polymerization of the present invention is not limited to any specific type.It comprises aniorfic surfactant, as Sodium dodecylbenzene sulfonate, and sodium lauryl sulphate, dodecyl diphenyl two horizontal sour sodium; Dialkyl group sulfo-succsinic acid sodium salt, nonionic surface active agent, as polyxyethylated ester and polyoxyethylene alkaryl ester, and amphoterics, comprise alkyl betaine salt, as empgen BB and hexadecyl beet alkali salt; Amino acid type surfactant, as dodecyl-β-An Jibingsuan, dodecyl two (ethylamino-) glycine and octyl group two (ethylamino-) glycinate.They can independent or two or more common uses, in these emulsifying agents, and preferred especially Sodium dodecylbenzene sulfonate, dodecyl diphenyl sodium disulfonate etc.
The consumption of emulsifying agent is generally the 0.05-2.5% weight ratio of total monomer mixture amount.When used emulsification dosage surpassed 2.5%, the water resistance of overlay paper was bad, and paper coating composition easily foams according to strong stirring the time.
In case of necessity, also can add inner complex, for example, sodium ethylene diamine tetracetate; Dispersion agent; As formaldehyde sodium sulfoxylate; And inorganic salt.
The preparation method of the multipolymer emulsion adhesive among the present invention is the rapid polymerization process of a kind of multistep, the wherein step polymerization of monomer mixture more than two steps.(a) at first, a part of above-mentioned monomer mixture, (accounting for the 0.5-60% of total monomer mixture weight) emulsion polymerization in the presence of high dissolubility chain-transfer agent (20 ℃ the time in the water solubleness be not less than 0.006mol/L) forms copolymer latices.(b) remaining monomer mixture above-mentioned copolymer latices and not processable chain-transfer agent (20 ℃ time, solubleness is less than 0.006mol/L in the water) exist and issue the lactogenesis polymerization.
Sometimes, the processable chain-transfer agent can not be used in the step (a) yet, the amount of high dissolubility chain transfer agents should not be less than 20% weight ratio of used total chain transfer dosage in polymerization procedure (a), preferred 25% weight ratio, the amount of processable chain-transfer agent should be less than 40% weight ratio of total chain transfer dosage used in polymerization procedure (b), preferred 50% weight ratio.
In every step, monomer mixture and chain-transfer agent mixture can be added by substep addition method and continuous addition method, or two kinds of methods are used jointly.In continuous application of sample, the composition of monomer mixture and/or chain-transfer agent mixture or amount can change in above-mentioned scope respectively, and this variation also can be continuous or intermittence.
The transforming degree of copolymer latices product preferred 90% above weight ratio, more preferably 95% above weight ratio among the present invention.
To close method different with above-mentioned too much step, when using following not processable chain transfer agents, also can adopt one-step polymerization process, these not the processable chain-transfer agent above-mentioned carboxylic acid mercaptoalkyl ester is arranged, mercaptan carboxylic acid's alkoxy alkyl and dialkyl group (two) thioether.
The consumption of these chain transfer agents is the 0.01-10% weight ratio of total monomer mixture amount, preferred 0.1-5% weight ratio.When its consumption was less than 0.1%, bond strength and water tolerance were relatively poor, and when its consumption surpassed 10%, bond strength also reduced.They can independent or two or more common uses.
Among the present invention, above-mentioned in case of necessity chain-transfer agent also can use jointly with other known chain transfer agent.These chain-transfer agents can be any chain-transfer agents commonly used in emulsion polymerization, comprise mercaptan, as spicy thioalcohol, and n-dodecyl mercaptan, uncle's lauryl mercaptan, n-hexadecyl mercaptan, uncle's hexadecyl mercaptan, n-tetradecane base mercaptan and uncle's tetradecyl mercaptan; Xanthan disulphide, as dimethyl xanthan disulphide, diethyl xanthan disulphide and di-isopropyl xanthan disulphide; Thiuram disulfide, as tetramethyl-thiuram disulfide, tetraethylthiuram disulfide and tetrabutylthiuram disulfide; Halohydrocarbon, as tetracol phenixin, carbon tetrabromide and sym-dibromoethane; Mercaptan carboxylic acid's alkyl ester, as the Thiovanic acid (ethyl hexyl) ester, thiohydracrylic acid monooctyl ester and thiohydracrylic acid tridecyl ester, and vinyl carbinol, α-Jia Jibenyixierjuwu, terpinolene, α-terpin, γ-terpin, two pentynes and methyl-phenoxide.They can independent or two or more common uses, wherein, mercaptan are arranged preferably, xanthan disulphide, thiuram disulfide, tetracol phenixin, mercaptan carboxylic acid's alkyl ester, α-Jia Jibenyixierjuwu, terpinolene etc.
The consumption of these known chain transfer agents is less than 95% weight ratio of total chain transfer dosage.Preferably be less than 90% weight ratio.
When its consumption surpasses 95% weight ratio, the bond strength of coated paper product, water tolerance, ink absorption, physical propertys such as the gloss of paper are all relatively poor.
Copolymer latices can be as stated above with monomer mixture, polymerization starter, and emulsifying agent and chain transforming agent join in the water-soluble medium (as water), make the emulsion polymerization and prepare.
Copolymer latices of the present invention can be used as the tackiness agent in the paper coating composition, also can be used as industry and the civilian carpet composition of mounting, color compositions, bonding composition in the binding compositions.Wherein, it is more suitable for as the tackiness agent in the paper coating composition.
Using copolymer latices of the present invention to prepare in the paper coating composition, need add the mineral dye of appropriate amount by each method of oneself knowing, as kaolin, clay, talcum, titanium dioxide, lime carbonate, aluminium hydroxide and stain white; Natural glue, as casein, starch and protein, and/or synthetic latex are as polyoxyethylene glycol and polyethylene acetic acid emulsion.
If necessary, also can add some known compositions, as: dispersion agent, anti-whipping agent, levelling agent, sanitas, anti-solvent and releasing agent.
The paper coating composition that contains copolymer latices of the present invention can be used by currently known methods, for example, uses knife coater, blade spreadometer, rolling spreadometer, or applicator.
The copolymer latices of the present invention's preparation has well balanced superior physical property, as bond strength, water tolerance, the gloss of ink absorption and paper, therefore can be well as the tackiness agent in the paper coating composition as the overlay paper in the production, particularly rubber rotary printing of overlay paper.And, also can be used as the bonding composition of various application, as the agent of mounting of industry and/or civilian carpet, coating, tackiness agent etc.
(example)
Following specific working example is used to further describe the present invention, and in example, " % " and " part " all is meant weight.
Example 1
Be connected with and add 5 parts of 1,3-butadienes, 6 parts of vinylbenzene, 2 parts of methyl methacrylates, 2 parts of fumaric acid, 0.5 part of Potassium Persulphate, 100 parts of water, 0.1 part of sodium alkyl benzene sulfonate and 0.05 part of 2 mercaptopropionic acid in 5 liters of autoclaves of nitrogen.Being reflected at 70 ℃ of stirrings carries out.After 2 hours, add all the other monomers (i.e. 30 parts of 1,3-butadienes, 45 parts of vinylbenzene, 8 parts of methyl methacrylates, 1 part of vinylformic acid and 1 part of methylacrylic acid) 0.2 part of 2 mercaptopropionic acid and 0.2 part of uncle's lauryl mercaptan again, and 0.5 part of sodium alkyl benzene sulfonate.After reaction 15 hours, (for 100 parts of monomers) transform more than 97%.Reaction mixture is cooled to 30 ℃, is transferred to pH7.5 ± 0.2 with NaOH.Unreacted monomer is removed by being blown into steam, and latex is concentrated into solids content and reaches 50%, thereby obtains required latex.
The latex that utilization obtains prepares paper coating composition by following prescription:
70 parts of stain whites (Engelhard product, one-level kaolin)
Trivalin SF 90(ECL product, weight matter lime carbonate) 30 parts
Aron T-40(Toagosei chemical company product, poly
Sodium acrylate) 0.1 part
14 parts of copolymer latices
Modified starch MS-4600(Nihon Shokahin Kako product) 3 part
It is the 60%(weight ratio that water makes total solids level).
It is 64g/m that this paper coating composition can be used for basic weight
2The two sides of wood-free writing paper, coating weight is 15.0 ± 0.5g/m
3, this paper in circulation dryer (120 ℃) dry 30 seconds.The overlay paper of gained was placed 24 hours in 23 ℃ and 60%RH, rolled under the temperature 100kg/cm line pressure and 70 ℃ then and repeated to suppress secondary with supercalender.The gained overlay paper is measured its physical property, and gained the results are shown in table 9.
Example 2-21
Preparation method with example 1, the agent different (listing in table 1-3 and table 5-7 respectively) but used monomer composition and chain are walked around, prepare latex by emulsion polymerization, prepare paper coating composition then and be used to be coated with paper and form overlay paper, the gained overlay paper is measured its physical property, obtains the results are shown in table 9-11.
Comparative example 1-8
With the preparation method of example 1, but used monomer composition different with chain-transfer agent (listing in table 4 and table 8 respectively) prepares latex by the emulsion polymerization, prepare corresponding paper coating composition then, coated paper gets overlay paper, and the gained overlay paper is measured its physical property, and gained the results are shown in table 12.
The physical property of reporting among the table 9-12 is measured or is estimated by following method:
(1) glue content
Gained newborn thing latex altogether is cast in the glass molds, obtain the thick film of 0.3mm, this film is cut into the square fritter of 2-3mm, accurately weigh up 0.4g, the sample of weighing immerses in the 100ml toluene, and constant temperature stirred 6 hours for 30 ℃, filtered through 100 order metallic screens then, measure solids content, utilize solids content to calculate glue content.
(2) bond strength (drying is adhered to resistance)
Utilize RI detector (Akira Seisakusho) to carry out multiple overlapping printing with No. 10 India inks, utilize bore hole that printing surface is estimated, rank was by 5 minutes, and institute's value is big more, and bond strength is good more.
(3) water tolerance (the wet resistance that adheres to)
Utilize the RI detector, the experiment material surface is tempered wet with Morto, and with No. 12 red ink printings, printing surface utilizes bore hole evaluation at once, estimates by 5 minutes, and institute's value is big more, and water tolerance is good more.
(4) ink absorption
This method is consistent with the water tolerance evaluation method basically, and difference is to adhere to preventing with the ink of low viscosity value, and ink transfer is estimated with bore hole, estimates by 5 minutes, and institute's value is big more, and water tolerance is good more.
(5) gloss of paper
The gloss number of overlay paper carries out with the Marakami glass detector at 75 ℃-75 ℃.
(6) anti-lathering property
Carry out the solid printing on the two sides with the web printing ink, utilize foaming detector (Ku-magai Riki) to detect the foaming occurrence temperature.
The result's of gained result clearly illustrates that the overlay paper of copolymer latices preparation of the present invention has good balance physics rerum natura such as bond strength in example and the comparative example, water tolerance, the gloss of ink absorption and paper etc., and overlay paper sees it also is good from physical property comprehensive evaluation
Table 1
Table 1(is continuous)
Table 2
Table 2(is continuous)
Table 3
Table 3(is continuous)
Table 4
Table 4(is continuous)
Table 5
Table 5(is continuous)
Table 6
Table 6(is continuous)
Table 7
Table 7(is continuous)
Table 8
Table 8(is continuous)
Example 22:
Be connected with in 5 liters of autoclaves of nitrogen and add 5 part 1, the 3-divinyl, 6 parts of vinylbenzene, 2 parts of methyl methacrylates, 2 parts of fumaric acid, 0.5 part of Potassium Persulphate, 100 parts of water, 0.1 part sodium alkyl benzene sulfonate and 0.1 part of uncle's lauryl mercaptan of 0.05 part of β-sulphur two pure and mild .1 part were reflected at 70 ℃ of stirrings and carry out, after 2 hours, add (promptly 30 parts of all the other monomers again, 1,3-butadiene, 45 parts of vinylbenzene, 8 parts of methyl methacrylates, 1 part of vinylformic acid and 1 part of methylacrylic acid), 0.2 part of β-thiodiglycol and 0.4 part of uncle's lauryl mercaptan, and 0.5 part of sodium alkyl benzene sulfonate.React after 15 hours, (for 100 parts of monomers) transform more than 97%.Reaction mixture is cooled to 30 ℃, is transferred to PH7.5 ± 0.2 with NaOH.Unreacted monomer is removed by steam, and latex is concentrated into solids content and reaches 50%, obtains required latex.
The latex that utilization obtains prepares paper coating composition by following prescription:
70 parts of stain whites (Engelhard product, one-level kaolin)
Trivalin SF 90(ECL product, water-ground limestone) 30 part
Aron T-40(Toagosei chemical company product, poly sodium acrylate) 0.1 part
14 parts of copolymer latices
Modified starch MS-4600(Nihon Shokahin Kako product) 3 part
It is the 60%(weight ratio that water makes total solids level).
It is 64g/m that this paper coating composition can be used for basic weight
2The two sides of wood-free writing paper, coating weight is 15.0 ± 0.5g/m
3, this paper in circulation dryer (120 ℃) dry 30 seconds.The overlay paper of gained was placed 24 hours in 23 ℃ and 60%RH, rolled under the temperature 100kg/cm line pressure and 70 ℃ then and repeated to suppress secondary with supercalender.The gained overlay paper is measured its physical property, and gained the results are shown in table 16.
Example 23-29
Preparation method with example 22, the agent different (listing in table 13 and table 14 respectively) but used monomer composition and chain are walked around, prepare latex by the emulsion polymerization, prepare paper coating composition then and be used for coated paper and form overlay paper, the gained overlay paper is measured its physical property, obtains the results are shown in table 16.
Comparative example 9-13
With the preparation method of example 22, but used monomer composition different with chain-transfer agent (listing in table 15) prepares latex by the emulsion polymerization, prepare corresponding paper coating composition then, coated paper gets overlay paper, and the gained overlay paper is measured its physical property, and gained the results are shown in table 17.
Physical property is measured and evaluation is listed in table 16 and the table 17
The result of gained clearly illustrates that the overlay paper of copolymer latices preparation of the present invention has good balance physical property such as bond strength, water tolerance, the gloss of black absorptivity and paper etc. in example and the comparative example.And overlay paper sees it also is good from physical property comprehensive evaluation.
Example 30
Be connected with in 5 liters of autoclaves of nitrogen and add 5 part 1, the 3-divinyl, 6 parts of vinylbenzene, 2 parts of methyl methacrylates, 2 parts of fumaric acid, 0.5 part of Potassium Persulphate, 100 parts of water, 0.1 part sodium alkyl benzene sulfonate and 0.05 part of β-thiodiglycol and 0.1 part of uncle's lauryl mercaptan, be reflected at 70 ℃ of stirrings and carry out, after 2 hours, add (promptly 30 part 1 of all the other monomer again, the 3-divinyl, 45 parts of vinylbenzene, 8 parts of methyl methacrylates, 1 part of vinylformic acid and 1 part of methylacrylic acid), 0.2 part β-thiodiglycol and 0.4 part of uncle's lauryl mercaptan, and 0.5 part of sodium alkyl benzene sulfonate.React after 15 hours, (for 100 parts of monomers) transform more than 97%.Reaction mixture is cooled to 30 ℃, is transferred to PH7.5 ± 0.2 with NaOH.Unreacted monomer is removed by steam, and latex is concentrated into solids content and reaches 50%, obtains required latex.
The latex that utilization obtains prepares paper coating composition by following prescription:
70 parts of stain whites (Engelhard product, one-level kaolin)
Trivalin SF 90(ECL product, water-ground limestone) 30 part
Aron T-40(Toagosei chemical company product, poly sodium acrylate) 0.1 part
14 parts of copolymer latices
Modified starch MS-4600(Nihon Shokahin Kako product) 3 part
It is the 60%(weight ratio that water makes total solids level)
It is 64g/m that this paper coating composition can be used for basic weight
2The two sides of wood-free writing paper, coating weight is 15.0 ± 0.5g/m
3, this paper in circulation dryer (120 ℃) dry 30 seconds.The overlay paper of gained was placed 24 hours in 23 ℃ and 60%RH, rolled under the temperature 100kg/cm line pressure and 70 ℃ then and repeated to suppress secondary with supercalender.The gained overlay paper is measured its physical property, and gained the results are shown in table 20.
Example 31-44
Preparation method with example 30, the agent different (listing in table 18 and table 19 respectively) but used monomer composition and chain are walked around, prepare latex by emulsion polymerization, prepare paper coating composition then and be used for coated paper and form overlay paper, the gained overlay paper is measured its physical property, obtains the results are shown in table 20 and table 21.
Comparative example 14-18
With the preparation method of example 30, but used monomer composition different with chain-transfer agent (listing in table 19) prepares latex by the emulsion polymerization, prepare corresponding paper coating composition then, coated paper gets overlay paper, and the gained overlay paper is measured its physical property, and gained the results are shown in table 21.
Physical property is measured and evaluation is listed in table 20 and the table 21
The result of gained clearly illustrates that the overlay paper of copolymer latices preparation of the present invention has good many balance reason characteristics such as bond strength, water tolerance, the gloss of black absorptivity and paper etc. in example and the comparative example.And overlay paper sees it also is good from physical property comprehensive evaluation.
Example 45
Be connected with and add 5 parts of 1,3-butadienes, 6 parts of vinylbenzene in 5 liters of autoclaves of nitrogen, 2 parts of methyl methacrylates, 2 parts of fumaric acid, 0.5 part of Potassium Persulphate, 100 parts of water, 0.1 part of sodium alkyl benzene sulfonate and 0.2 part of Thiovanic acid methoxyl group butyric acid are reflected at 70 ℃ of stirrings and carry out.After 2 hours, add all the other monomers (i.e. 30 parts of 1,3-butadienes, 45 parts of vinylbenzene, 8 parts of methyl methacrylates, 1 part of vinylformic acid and 1 part of methylacrylic acid) and 0.2 part of Thiovanic acid methoxyl group butyl ester again, and 0.5 part of sodium alkyl benzene sulfonate.After reaction 15 hours, (for 100 parts of monomers) transform more than 97%.Reaction mixture is cooled to 30 ℃, is transferred to pH7.5 ± 0.2 with NaOH.Unreacted monomer is removed by being blown into steam, and latex is concentrated into solids content and reaches 50%, thereby obtains required latex.
The latex that utilization obtains prepares paper coating composition by following prescription:
70 parts of stain whites (Engelhard product, one-level kaolin)
Trivalin SF 90(ECL product, water-ground limestone) 30 part
Aron T-40(Toagosei chemical company product, poly sodium acrylate) 0.1 part
14 parts of copolymer latices
Modified starch MS-4600(Nihon Shokahin Kako product) 3 part
It is the 60%(weight ratio that water makes total solids level).
It is 64g/m that this paper coating composition can be used for basic weight
2The two sides of wood-free writing paper, coating weight is 15.0 ± 0.5g/m
3, this paper in circulation dryer (120 ℃) dry 30 seconds.The overlay paper of gained was placed 24 hours in 23 ℃ and 60%RH, rolled under the temperature 100kg/cm line pressure and 70 ℃ then and repeated to suppress secondary with supercalender.The gained overlay paper is measured its physical property, and gained the results are shown in table 24.
Example 46-59
Preparation method with example 45, the agent different (listing in table 22 and the table 23 respectively) but used monomer composition and chain are walked around, prepare latex by the emulsion polymerization, prepare paper coating composition then and be used for coated paper and form overlay paper, the gained overlay paper is measured its physical property, and what obtain the results are shown in table 24 and table 25.
Comparative example 19-23
With the preparation method of example 45, but used monomer composition different with chain-transfer agent (listing in the table 23) prepares latex by the emulsion polymerization, prepare corresponding paper coating composition then, coated paper gets overlay paper, and the gained overlay paper is measured its physical property, and gained the results are shown in table 25.
The physical constant that aforesaid method is measured and estimated is listed in table 24 and the table 25.
The result of gained clearly illustrates that and utilizes the overlay paper of copolymer latices preparation of the present invention to have good balance physics rerum natura such as bond strength in example and the comparative example, water tolerance, the gloss of ink absorption and paper etc., and overlay paper sees it also is good from physical property comprehensive evaluation
Example 60:
Be connected with in 5 liters of autoclaves of nitrogen and add 5 part 1, the 3-divinyl, 6 parts of vinylbenzene, 2 parts of methyl methacrylates, 2 parts of fumaric acid, 0.5 part of Potassium Persulphate, 100 parts of water, 0.1 part sodium alkyl benzene sulfonate and 0.1 part of diallyl thioether, 0.1 part of uncle's lauryl mercaptan is reflected at 70 ℃ of stirrings and carries out, after 2 hours, add all the other monomers (i.e. 30 parts of 1,3-butadienes, 45 parts of vinylbenzene again, 8 parts of methyl methacrylates, 1 part of vinylformic acid and 1 part of methylacrylic acid), 0.2 part of β-thiodiglycol and 0.4 part of uncle's lauryl mercaptan, and 0.5 part of sodium alkyl benzene sulfonate.React after 15 hours, (for 100 parts of monomers) transform more than 97%.Reaction mixture is cooled to 30 ℃, is transferred to PH7.5 ± 0.2 with NaOH.Unreacted monomer is removed by steam, and latex is concentrated into solids content and reaches 50%, obtains required latex.
The latex that utilization obtains prepares paper coating composition by following prescription:
70 parts of stain whites (Engelhard product, one-level kaolin)
Trivalin SF 90(ECL product, water-ground limestone) 30 part
Aron T-40(Toagosei chemical company product, poly sodium acrylate) 0.1 part
14 parts of copolymer latices
Modified starch MS-4600(Nihon Shokahin Kako product) 3 part
It is the 60%(weight ratio that water makes total solids level).
It is 64g/m that this paper coating composition can be used for basic weight
2The two sides of wood-free writing paper, coating weight is 15.0 ± 0.5g/m
3, this paper in circulation dryer (120 ℃) dry 30 seconds.The overlay paper of gained was placed 24 hours in 23 ℃ and 60%RH, rolled under the temperature 100kg/cm line pressure and 70 ℃ then and repeated to suppress secondary with supercalender.The gained overlay paper is measured its physical property, and gained the results are shown in table 28.
Example 61-74
Preparation method with example 60, the agent different (listing in table 26 and table 27 respectively) but used monomer composition and chain are walked around, prepare latex by the emulsion polymerization, prepare paper coating composition then and be used for coated paper and form overlay paper, the gained overlay paper is measured its physical property, obtains the results are shown in table 28 and table 29.
Comparative example 24-28
With the preparation method of example 60, but used monomer composition different with chain-transfer agent (listing in table 27) prepares latex by the emulsion polymerization, prepare corresponding paper coating composition then, coated paper gets overlay paper, and the gained overlay paper is measured its physical property, and gained the results are shown in table 29.
Physical property is measured and evaluation is listed in table 28 and the table 29
The result of gained clearly illustrates that the overlay paper of copolymer latices preparation of the present invention has good balance physical property such as bond strength, water tolerance, the gloss of black absorptivity and paper etc. in example and the comparative example.And overlay paper sees it also is good from physical property comprehensive evaluation.
Claims (23)
1, monomer mixture prepares the method for copolymer latices through the emulsion polymerization, and monomer mixture contains (1) at least a conjugate diene monomer, (2) at least a ethylenic unsaturation monomer and (3) at least a ethylenic unsaturation carboxylic acid monomer, and this method comprises:
(a) in the presence of the wetting ability chain-transfer agent, the above-mentioned monomer mixture of part is formed copolymer latices through the emulsion polymerization, then
(b) in the presence of above-mentioned copolymer latices and mercapto water-based chain-transfer agent, all the other monomer mixtures carry out the emulsion polymerization.
2, monomer mixture prepares the method for copolymer latices through the emulsion polymerization, and monomer mixture contains (1) at least a conjugate diene monomer, (2) at least a ethylenic unsaturation monomer and (3) at least a ethylenic unsaturation carboxylic acid monomer, and this method comprises:
(a) in the presence of wetting ability chain-transfer agent (20 ℃ the time in the solubleness of water greater than 0.006mol/L), the monomer mixture that accounts for the 0.5-60% weight of total monomer weight (comprises (1) a kind of conjugate diene monomer, (2) a kind of ethylenic unsaturation monomer, (3) a kind of ethylenic unsaturation carboxylic acid monomer) form copolymer latices, then through the emulsion polymerization
(b) in the presence of above-mentioned emulsion copolymer and mercapto water-based chain-transfer agent (solubleness 20 ℃ the time in the water is less than 0.006mol/L), remaining monomer mixture carries out the emulsion polymerization.
3, claim 1 or 2 method, wherein the wetting ability chain-transfer agent is mercaptan carboxylic acid or its salt.
4, claim 1 or 2 method, wherein the wetting ability chain-transfer agent is the mercaptan of hydroxyl.
5, claim 1 or 2 method, wherein the wetting ability chain-transfer agent is (two) sulfide of hydroxyl.
6, claim 1 or 2 method, wherein the wetting ability chain-transfer agent is carboxylic (two) sulfide.
7, claim 1 or 2 method, wherein the wetting ability chain-transfer agent is to contain carboxyl and amino (two) sulfide.
8, claim 1 or 2 method, wherein mercapto water-based chain-transfer agent is an alkyl sulfhydryl.
9, claim 1 or 2 method, wherein mercapto water-based chain-transfer agent is the dithio tetraalkyl thiuram.
10, claim 1 or 2 method, wherein mercapto water-based chain-transfer agent is a halon.
11, claim 1 or 2 method, wherein mercapto water-based chain-transfer agent is a α-Jia Jibenyixierjuwu.
12, claim 1 or 2 method, wherein the consumption of wetting ability chain-transfer agent is the 0.005-8% weight of total monomer mixture amount.
13, claim 1 or 2 method, wherein mercapto water-based chain-transfer agent is the carboxylic acid mercaptoalkyl ester of following formula representative,
R wherein
1Be monovalence alkyl, R
2Be bivalent hydrocarbon radical.
14, the method for claim 13, wherein chain-transfer agent is the carboxylic acid mercaptoalkyl ester of following formula representative,
Wherein, R
1For containing the alkyl of 1-24 carbon, R
2For containing the alkylidene group of 1-24 carbon.
15, claim 1 or 2 method, wherein mercapto water-based chain-transfer agent is mercaptan carboxylic acid's alkoxy alkyl.
16, the method for claim 15, wherein mercaptan carboxylic acid's alkoxy alkyl is the structure of following formula representative:
R wherein
3Be bivalent hydrocarbon radical, R
4Be alkyl, OR
5Be alkoxyl group.
17, claim 1 or 2 method, wherein mercapto water-based chain-transfer agent is two alkenyls (two) sulfide.
18, the method for claim 17, wherein two alkenyls (two) sulfide is diallyl (two) sulfide.
19, monomer mixture prepares the method for copolymer latices through the emulsion polymerization, monomer mixture contains (1) at least a conjugate diene monomer, (2) at least a ethylenic unsaturation monomer, (3) at least a ethylenic unsaturation carboxylic acid monomer, this method comprises that the carboxylic acid mercaptoalkyl ester that is reflected at the following formula representative is as carrying out under the existence of chain-transfer agent
R wherein
1Be monovalent hydrocarbon alkyl, R
2Be divalence hydrocarbon alkyl.
20, monomer mixture prepares the method for copolymer latices through the emulsion polymerization, monomer mixture contains (1) at least a conjugate diene monomer, (2) at least a ethylenic unsaturation monomer, (3) at least a ethylenic unsaturation carboxylic acid monomer, this method comprises and is reflected at mercaptan carboxylic acid's alkoxy alkyl as carrying out under the existence of chain-transfer agent.
21, monomer mixture prepares the method for copolymer latices through the emulsion polymerization, monomer mixture contains (1) at least a conjugate diene monomer, (2) at least a ethylenic unsaturation monomer, (3) at least a ethylenic unsaturation carboxylic acid monomer, this method comprises and is reflected at two alkenyls (two) sulfide as carrying out under the existence of chain-transfer agent.
22, the preparation of copolymer latices comprises that (a) (comprises (1) a kind of copolymerization diene monomers with the partial monosomy mixture, (2) a kind of ethylenic unsaturation carboxylic acid monomer of a kind of ethylenic unsaturation monomer (3)) issue living emulsion polymerization and obtain a kind of copolymer latices in the existence of wetting ability chain-transfer agent, then (b) in the presence of above-mentioned copolymer latices and mercapto water-based chain-transfer agent, remaining monomer mixture carries out the emulsion polymerization.
23, the paper coating composition that contains the copolymer latices in the claim 22.
Applications Claiming Priority (10)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP286819/91 | 1991-10-31 | ||
| JP286818/91 | 1991-10-31 | ||
| JP28681891 | 1991-10-31 | ||
| JP28681991 | 1991-10-31 | ||
| JP048762/92 | 1992-03-05 | ||
| JP04876292A JP3242972B2 (en) | 1991-10-31 | 1992-03-05 | Method for producing copolymer latex, copolymer latex, and paper coating composition using the same |
| JP4052854A JPH05255414A (en) | 1992-03-11 | 1992-03-11 | Production of copolymer latex, copolymer latex and paper coating composition using the same |
| JP052853/92 | 1992-03-11 | ||
| JP052854/92 | 1992-03-11 | ||
| JP05285392A JP3238455B2 (en) | 1992-03-11 | 1992-03-11 | Method for producing copolymer latex, copolymer latex, and paper coating composition using the same |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN1071931A true CN1071931A (en) | 1993-05-12 |
| CN1048504C CN1048504C (en) | 2000-01-19 |
Family
ID=27522737
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN92112608A Expired - Fee Related CN1048504C (en) | 1991-10-31 | 1992-10-30 | Production of copolymer latices |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN1048504C (en) |
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1764552B (en) * | 2003-03-31 | 2010-06-23 | 惠普开发有限公司 | Coating combination and method for preparing water-proof or moisture-proof image by the combination |
| CN102325799A (en) * | 2009-02-19 | 2012-01-18 | 巴斯夫欧洲公司 | Aqueous polymer dispersion made of vinylaromatic compound, conjugated aliphatic diene, and ethylenically unsaturated acid |
| CN103189395A (en) * | 2010-08-27 | 2013-07-03 | 巴斯夫欧洲公司 | Aqueous polymer dispersion which can be obtained by a radically initiated emulsion polymerization in the presence of a molecular weight regulator composition |
| CN115057956A (en) * | 2022-06-28 | 2022-09-16 | 万华化学集团股份有限公司 | Agglomeration method of polybutadiene latex with high solid content and narrow distribution and application thereof |
Family Cites Families (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS5590697A (en) * | 1978-12-28 | 1980-07-09 | Sumitomo Naugatuck | Production of paper coat composition |
| DE3035179A1 (en) * | 1979-09-19 | 1981-04-09 | Sumitomo Naugatuck, Co., Ltd., Osaka | COPOLYMER LATEX, METHOD FOR PRODUCING IT AND THE USE THEREOF AS A PAPER COATING |
-
1992
- 1992-10-30 CN CN92112608A patent/CN1048504C/en not_active Expired - Fee Related
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1764552B (en) * | 2003-03-31 | 2010-06-23 | 惠普开发有限公司 | Coating combination and method for preparing water-proof or moisture-proof image by the combination |
| CN102325799A (en) * | 2009-02-19 | 2012-01-18 | 巴斯夫欧洲公司 | Aqueous polymer dispersion made of vinylaromatic compound, conjugated aliphatic diene, and ethylenically unsaturated acid |
| CN103189395A (en) * | 2010-08-27 | 2013-07-03 | 巴斯夫欧洲公司 | Aqueous polymer dispersion which can be obtained by a radically initiated emulsion polymerization in the presence of a molecular weight regulator composition |
| CN115057956A (en) * | 2022-06-28 | 2022-09-16 | 万华化学集团股份有限公司 | Agglomeration method of polybutadiene latex with high solid content and narrow distribution and application thereof |
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| Publication number | Publication date |
|---|---|
| CN1048504C (en) | 2000-01-19 |
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