GB1587912A - Sizing accelerator - Google Patents

Sizing accelerator Download PDF

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Publication number
GB1587912A
GB1587912A GB3490977A GB3490977A GB1587912A GB 1587912 A GB1587912 A GB 1587912A GB 3490977 A GB3490977 A GB 3490977A GB 3490977 A GB3490977 A GB 3490977A GB 1587912 A GB1587912 A GB 1587912A
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United Kingdom
Prior art keywords
sizing
cationic polymer
condensing
cationic
epihalohydrin
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GB3490977A
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Hercules LLC
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Hercules LLC
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Application filed by Hercules LLC filed Critical Hercules LLC
Priority to GB3490977A priority Critical patent/GB1587912A/en
Priority to CA000308041A priority patent/CA1144691A/en
Priority to US05/932,103 priority patent/US4243481A/en
Priority to AT0601178A priority patent/AT370120B/en
Priority to AU54274/80A priority patent/AU534918B2/en
Priority to SE8000053A priority patent/SE433235B/en
Priority to DE19803000502 priority patent/DE3000502A1/en
Priority to NLAANVRAGE8000117,A priority patent/NL186815C/en
Priority to JP94780A priority patent/JPS56101998A/en
Priority to FR8001000A priority patent/FR2474042A1/en
Priority to CH43180A priority patent/CH643019A5/en
Priority to BE0/199052A priority patent/BE881262A/en
Priority to US06/180,187 priority patent/US4317756A/en
Publication of GB1587912A publication Critical patent/GB1587912A/en
Priority to AT179281A priority patent/AT375424B/en
Expired legal-status Critical Current

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    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08GMACROMOLECULAR COMPOUNDS OBTAINED OTHERWISE THAN BY REACTIONS ONLY INVOLVING UNSATURATED CARBON-TO-CARBON BONDS
    • C08G73/00Macromolecular compounds obtained by reactions forming a linkage containing nitrogen with or without oxygen or carbon in the main chain of the macromolecule, not provided for in groups C08G12/00 - C08G71/00
    • C08G73/02Polyamines
    • C08G73/0273Polyamines containing heterocyclic moieties in the main chain
    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21HPULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
    • D21H17/00Non-fibrous material added to the pulp, characterised by its constitution; Paper-impregnating material characterised by its constitution
    • D21H17/03Non-macromolecular organic compounds
    • D21H17/05Non-macromolecular organic compounds containing elements other than carbon and hydrogen only
    • D21H17/17Ketenes, e.g. ketene dimers
    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21HPULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
    • D21H17/00Non-fibrous material added to the pulp, characterised by its constitution; Paper-impregnating material characterised by its constitution
    • D21H17/20Macromolecular organic compounds
    • D21H17/33Synthetic macromolecular compounds
    • D21H17/46Synthetic macromolecular compounds obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds
    • D21H17/54Synthetic macromolecular compounds obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds obtained by reactions forming in the main chain of the macromolecule a linkage containing nitrogen
    • D21H17/55Polyamides; Polyaminoamides; Polyester-amides

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  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Health & Medical Sciences (AREA)
  • Medicinal Chemistry (AREA)
  • Polymers & Plastics (AREA)
  • Organic Chemistry (AREA)
  • Paper (AREA)

Description

(54) SIZING ACCELERATOR (71) We, HERCULES INCORPORATED, a Corporation organised under the laws of the State of Delaware, United States of America, of 910 Market Street, City of Wilmington, State of Delaware, United States of America, do hereby declare the invention, for which we pray that a patent may be granted to us, and the method by which it is to be performed, to be particularly described in and by the following statement: This invention relates to novel cationic polymers and to their use in the production of sized paper and sized paperboard.
In particular, this invention relates to the manufacture of sized paper and sized paperboard wherein the sizing agent employed is a hydrophobic cellulose reactive sizing agent, e.g. a ketene dimer sizing agent, and there is employed in combination therewith, as sizing accelerators, the novel cationic polymers of this invention to provide substantially higher off-the-machine sizing than when the cellulose reactive sizing agent is used alone.
U.S. Patent 3,840,486 discloses water-soluble, thermosettable resinous compositions derived by reaction of dicyandiamide, an ammonium salt, formaldehyde, and an acid salt of a water-soluble aminopolyamide such as the water-soluble aminopolyamide derived by reaction of adipic acid and diethylenetriamine. The resinous compositions of U.S. Patent 3,840,486 accelerate the sizing imparted to paper by cellulose reactive sizing agents such as ketene dimers, acid anhydrides, and organic isocyanates. By employing the resinous compositions of U.S. Patent 3,840,486 in combination with the above sizing agents for paper, higher off-the-machine sizing is provided than when using equivalent amounts of the sizing agent alone.
United Kingdom Patent Specification No. 1,373,788 discloses the use of dicyandiamideformaldehyde condensates as sizing accelerators for ketene dimer sizing agents.
U.S. Patent 3,409,500 discloses a process for the manufacture of sized paper which comprises separately adding an aqueous anionic dispersion of hydrophobic organic cellulose-reactive paper sizing carboxylic anhydride particles to an aqueous suspension of cellulose papermaking fibers and a water-soluble cellulose-substantive cationic polyamine having a molecular weight in excess of 1,000, the amount of said polyamine being at least sufficient to deposit said anhydride particles on said fibers and to accelerate the rate at which said anhydride develops its sizing properties on cellulose fibers at 1900F.-2500F., sheeting said suspension to form a water-laid web, and drying said web at a temperature between 1900F. and 250"F.
In U.S. Patent 3,409,500, at column 3, lines 61-70, it is stated that among the most efficient cationic polymers are the adipic acid-polyalkylenepolyamide-epichlorohydrin polymers, prepared by condensing adipic acid with a polyalkylene-polyamine thereby forming a polyamidepolyamine, and reacting this polymer with epichlorohydrin. Methods for the preparation of agents of this type are disclosed in U.S. Patents 2,926,116, 2,926,154 and 3,329,657.
The cationic polymers of U.S. Patents 2,926,116 and 2,926,154 are disclosed in patent 3,483,077 as being useful retention aids for ketene dimer sizing agents whereby sizing is improved as compared to cationic starch retention aid.
U.S. Patent 3,575.976 discloses a method for the sizing of paper and paperboard products which comprises intimately dispersing within the aqueous pulp slurry, or applying to a prepared paper web, an aqueous emulsion of an N-substituted aziridine compound which is prepared by means of the reaction between a carbonyl-substituted, alpha, beta-ethylenically unsaturated compound such as distearyl maleate and an alkyleneimine such as ethyleneimine. The sizing agent can be uniformly dispersed with a cationic emulsifier, such as a cationic starch, for better retention on the fibers. Column 4, lines 1-44 of U.S. Patent 3,575,796 discloses other cationic agents for use in aiding in the retention of the sizing agents of the invention among which are cationic thermosetting resins such as the reaction products of di-basic acids, polyalkylenepolyamines and epihalohydrins. It is stated also at column 4, lines 45-62, that the cationic agents are also useful as emulsifiers for the sizing agent.
U.S. Patent 3,666,512 discloses compositions comprising hydrophobic cellulose-reactive paper-sizing carboxylic acid anhydrides and a catalyst which accelerates the rate at which the anhydride develops its sizing properties when deposited on cellulose from aqueous medium and heated. The catalyst or promotor for the anhydride size is a water-soluble polyamine.
Suitable cationic agents are set forth in the table in column 7 of the patent. Among the cationic agents is an amonopolyamide--epichlorohydrin resin, the aminopolyamide being derived from diethylenetriamine and adipic acid.
Canadian Patent 873,777 discloses a method for improving the wet strength, dry strength, and resistance to penetration by liquids of unsized paper comprising imbibing the paper with an amine oxide capable of swelling the paper fibers and a ketene dimer paper sizing agent, heating the paper to swell the paper fibers and removing the amine oxide from the paper.
U.S. Patent 3,046,186 relates to the manufacture of sized paper by the beater-addition process wherein an aqueous cationic dispersion of a hydrophobic ketene dimer is added to an aqueous suspension of cellulosic fibers. The sized paper is manufactured by forming an aqueous suspension of cellulose papermaking fibers and adding thereto an emulsion of a hydrophobic ketene dimer in an aqueous medium containing a cationic dispersing agent which may be a monomeric or high molecular weight hydrophilic or water-soluble basic nitrogenous surface-active agent. The dispersing agents are set forth in columns 3 and 4 of U.S. Patent 3,046,186.
U.S. Patent 3,006,806 discloses the conjoint use of an organic cationic polymer with a ketene dimer in the sizing of paper. Cationic polymers disclosed are melamine-formaldehyde resins (as described in U.S. 2,345,543 to Wohnsiedler and Thomas and U.S. 2,559,220 to Maxwell and Lanes); ureaformaldehyde resins (as described in U.S. 2,657,132 to Daniel, Landes and Suen); cationic corn starch; guanidineformaldehyde resins (U.S. 2,745 to Weidner and Dunlap); alkylenepolyamine-halohydrin resins (as described in U.S. 2,601,597 to Daniel, Wilson and Landes); and cationic ureaformaldehyde resins (as described in British Patents 675,477 and 677,184).
U.S. Patent 3,084,092 relates to paper manufactured by the conjoint use of an amino resin and a hydrophobic organic isocyanate. Amino resins disclosed in U.S. Patent 3,084,092 are polyfunctional halohydrin resins of Daniel et al, U.S. Patent No. 2,595,935; the dicyandiamide-formaldehyde-amine polymers of Dudley et al, U.S. Patent No. 2,596,014; the urea-monosubstituted urea resins of Schiller et al, U.S. Patent No. 2,698,787; the polyamine-polyamide linear polymers of House et al, U.S. Patent No. 2,792,560; the polymers formed by copolymerizing acrylamide and acrylic acid in 9:1 molar ratio; the sulfonated dimethylol-urea resins of U.S. Patent No. 2,582,840; and the aminosulfuric acid-melamineformaldehyde resins of U.S. Patent No. 2,688,607.
According to the present invention there are provided novel cationic polymers that are adapted particularly as sizing accelerators for use with hydrophobic cellulose reactive sizing agents, e.g. ketene dimers, acid anhydrides, and organic isocyanates. The novel cationic polymers of the invention increase the rate of sizing of the hydrophobic cellulose reactive sizing agents.
According to a further aspect of the invention there are provided novel sizing compositions for cellulose fibers comprising at least one hydrophobic cellulose reactive sizing agent and at least one cationic polymer (sizing accelerator) of this invention.
The preferred sizing compositions will be aqueous emulsions comprised of the cellulose reactive sizing agent, at least one emulsifier, and, as a sizing accelerator, at least one of the novel cationic polymers of this invention. The term "emulsion" is used herein, as is customary in the art, to mean either a dispersion of the liquid-in-liquid type or of the solid-in-liquid type.
Aqueous emulsions of hydrophobic cellulose reactive sizing agents are known in the art and are commercially available. To prepare the novel sizing compositions of this invention there is thoroughly admixed with the emulsion an amount of cationic polymer sufficient to increase the sizing action of the sizing agent. It has been determined that from 0.25 part to 3 parts by weight of the cationic polymer for each part by weight of the hydrophobic cellulose reactive sizing agent present in the emulsion provides good results.
Thus, the novel sizing compositions of this invention are aqueous emulsions that consist essentially of a hydrophobic cellulose reactive sizing agent, e.g. as ketene dimer, at least one emulsifier, and, as sizing accelerator, at least one of the novel cationic polymers of this invention. The amount of emulsifier(s) employed will be that sufficient to obtain and maintain an emulsion that is stable for prolonged period of time and is within the skill of the art.
Emulsifier employed can be chosen from emulsifiers conventionally employed in the production of emulsions of cellulose reactive sizing agents. Such emulsifiers are well known in the art and include cationic starches that are water-soluble starches carrying sufficient cationic amino groups, quaternary ammonium, or other cationic groups to render the starch, as a whole, cellulose-substantive. An example of such a cationic starch is the cationic amine modified starch described in United Kingdom Patent Specification No. 903,416.
Another emulsifier that can be used is a water-soluble cationic thermosetting resin obtained by reacting epichlorohydrin with a water-soluble aminopolyamide formed from a dicarboxylic acid and a polyalkylene polyamine. Resins of this type are described in United Kingdom Patent Specification No. 865,727.
The novel cationic polymers used in this invention are set forth below.
Cationic polymer (1) is a nitrogen-containing polymer obtained by first condensing bisaminopropylpiperazine with dicyandamide or cyanamide. The condensation reaction forms a low molecular weight polymer which is then reacted with an epihalohydrin, e.g. epichlorohydrin.
Cationic polymer (1) is prepared in two stages. First, a prepolymer condensate is prepared by the condensation of bis-aminopropylpiperazine (LAPP) and dicyandiamide in a mole ratio of BAPP to dicyandiamide of from about 0.5: 1 to 1:0.5. The preferred mole ratio is 1: 1.
The reactants are admixed and heated at a temperature of from about 150-220"C. for from 1/2 hour to 4 hours, time varying inversely with temperature. Ammonia, NH3, is evolved during reaction and reaction is essentially complete when NH3 ceases to be evolved. The prepolymer, in aqueous media, is then reacted with an epihalohydrin. Reaction with epihalohydrin is carried out at elevated temperature, preferably at a temperature of 50"C to 80 C., until the reaction product has a viscosity, as measured on the Gardner-Holdt scale, of F to S. The amount of epihalohydrin used can be from 0.3 mole to 2 moles, preferably 1 mole to 1.5 moles, for each mole of amine nitrogen present in the prepolymer condensate. If cyanamide is used instead of dicyandiamide, moles of cyanamide used will be twice the mole(s) of dicyandiamide.
In the examples that follow, all parts and percentages are by weight unless otherwise specified.
The following example is illustrative of the preparation of cationic polymer (1).
Example 1 To a 1-liter, 3-necked round-bottom flask equipped with a mechanical stirrer, heating mantle, thermowatch temperature controller, and a reflux condenser attached to a water trap were charged 200 g. (1 mole) of bis-aminopropylpiperazine and 84 g. (1 mole) dicyandiamide. Heating was started and continued to 1600C. with the evolution of ammonia. The mixture was held at 1600C. for 3 hours during which time more than 1 mole of ammonia was collected and then the reaction was quenched by the addition of 284 g. of distilled water giving an aqueous dispersion of 44.4% total solids. To a 500 ml., 3-necked round-bottom flash containing a large fourth hole suitable for the insertion of pH electrodes to monitor the reaction was attached a mechanical stirrer, reflux condenser and a Spurlin-Spence viscometer (essentially a fine bore tube with 5 ml. reservoir which is filled by suction and the time needed to pass through a fixed distance is measured). This reaction vessel was charged with 113 g. (50 g. prepolymer solids) of the aqueous solution of the condensation prepolymer above prepared (equal to 0.4 amine equivalents) and 87 g. of distilled water in order to dilute the material to 25% solids. Then 46 g. (0.5 mole) of epichlorohydrin was added. The initial reaction pH was 12.1. There was an exothermic reaction which carried the temperature to 60"C. and then heat was applied to maintain the temperature at 700 C. The viscosity began to increase 45 minutes after the epichlorohydrin addition when the pH was 7.0. The reaction mass was heated another 45 minutes during which time the viscosity increased to 15 seconds on the Spurlin-Spence viscometer (equivalent to a Gardner-Holdt viscosity of N) and the reaction was quenched by the addition of 234 g. of distilled water and 14.4 g. of formic acid which lowered the pH of the product to 4.0. The total solids was 24.0%.
Cationic polymer (2) is a nitrogen-containing polymer obtained by condensing an alkylenediamine with an epihalohydrin, e.g. epichlorohydrin, in a mole ratio alkylenediamine to epihalohydrin of 2:1. The product of this reaction is reacted with dicyandiamide or cyanamide to produce a low molecular weight polymer which is then reacted with an epihalohydrin, e.g. epichlorohydrin. Examples of alkylenediamines that can be used in the preparation of this cationic polymer (2) are ethylenediamine, propylenediamine, and hexamethylenediamine. Mixtures of two or more alkylenediamines can be used if desired.
Cationic polymer (2) is produced in three stages. First, the alkylenediamine is reacted with an epihalohydrin in a mole ratio of 2 to 1 at a temperature of 50-80 C., over a period of 1 hour to 3 hours (time varies inversely with temperature) to provide a reaction product. This reaction product is then reacted with dicyandiamide at a temperature of 150-220"C. for from 1/2 hour to 4 hours, time varying inversely with temperature. The amount of dicyandiamide employed will be from 1 mole to 2 moles for each mole of epichlorohydrin used in reaction with the alkylenepolyamine, with 1 mole being preferred. This reaction product is then reacted with epihalohydrin in an amount of 2 to 2.5 moles for each mole of epihalohydrin used in reaction with the alkylenediamine at a temperature of 25-70 C. for a period of time of 1 hour to 4 hours (time varies inversely with temperature). If cyanamide is used in place of dicyandiamide, moles of cyanamide used will be twice the mole(s) of dicyandiamide.
The following example is illustrative of the preparation of cationic polymer (2).
Example 2 To a 500 ml. round-bottom, 3-necked flask equipped with a heating mantle, thermowatch, mechanical stirrer and reflux condenser connected to a water trap was added 120 g.
ethylenediamine (2 moles). This was heated to 50"C. and 92 g. epichlorohydrin (1 mole) was added dropwise over a 2 hour period. The temperature was allowed to rise to 600 C., then increased to 800 C. by the application of heat. Dicyandiamide (84 grams - 1 mole) was then added to the contents of the flask. The reaction mixture was heated to 1600 C. and maintained at this temperature for two hours. About 1.8 moles of NH3 was evolved during the condensation reaction. 300 ml. water was added to provide a reaction mass containing 48 % solids) was diluted with water to 25% solids and 43 g. epichlorohydrin was added over a period of 15 minutes. This reaction mass was heated to 70"C. and maintained at this temperature for 5 hours. The final product consisted of 32% by weight solids.
Cationic polymer (3) is a nitrogen-containing polymer obtained by condensing 1,3dicyanobenzene with a polyalkylenepolyamine to form a low molecular weight polymer. The resulting polymer is then reacted with an epihalohydrin, e.g. epichlorohydrin. The polyalkylenepolyamine used in preparing cationic polymer (3) can be for example, a polyethylenepolyamine, a polypropylenepolyamine or a polybutylenepolyamine. Specific examples of such polyalkylenepolyamines are diethylenetriamine, triethylenetetramine, tet raethylenepentamine, and dipropylenetriamine.
Cationic polymer (3) is prepared in two stages. First, 1,3-dicyanobenzene is condensed with a polyalkylene polyamine in a mole ratio of 1:1 to provide a condensation prepolymer.
This condensation reaction is carried out at a temperature of from 150-2000C. for a period of 1 hour to 4 hours. Time varies inversely with temperature. The condensation prepolymer is then reacted, in aqueous media, with an epihalohydrin at elevated temperature, preferably 50"C.-90"C. for about 1 hour to 4 hours. Time varies inversely with temperature. One mole of epihalohydrin is used for each mole of amine nitrogen present in the condensation prepolymer.
Example 3 Equipment as used in Example 2 was used in this example. 64 g. (0.5 mole) 1,3dicyanobenzene and 51.5 g (0.5 mole) diethylenetriamine were added to the flask to provide a mixture which was heated to a temperature of 165"C. and maintained at this temperature for four hours. During this time about 0.5 mole of NH3 was evolved. The reaction product was cooled to room temperature (about 23"C.) 23 g. of the reaction product (O.11 amine equivalents) was dissolved in 25 g. methanol, then 75 g. of water was added, followed by 15 g.
(0.16 mole) epichlorohydrin, and the reaction mixture was heated to 90"C. and maintained at this temperature for about 2 hours. The product consisted of 29% by weight solids.
Cationic polymer (4) is a nitrogen-containing polymer obtained by the condensation of bis-aminopropylpiperazine with an epihalohydrin, e.g. epichlorohydrin.
Cationic polymer (4) is prepared by the condensation reaction of bisaminopropylpiperazine and an epihalohydrin in a mole ratio of bis-aminopropylpiperazine to epihalohydrin of 1:3 to 1:8, preferably in a 1:4 mole ratio. Reaction is carried out at a temperature of 50-90"C. until the reaction product has a viscosity. as measured on the Gardner-Holdt scale. of F to S. This will usually require a period of 1 hour to 4 hours, depending on the temperature employed.
Example 4 Apparatus as used in Example 2 was used in this example. 64 g. (0.32 mole) of bisaminopropylpiperazine was mixed with 354 g. water in the flash and 125 g. (1.34 moles) epichlorohydrin was added thereto, slowly, over 15 minutes.
As the epichlorohydrin was added, the temperature of the reaction mass rose rapidly to 70"C. and a cooling water bath was applied to maintain the temperature at 700 C. After the epichlorohydrin addition was complete, the cooling bath was removed and the temperature was maintained at 70"C. with a heating mantle. The viscosity rose gradually over an hour and a half to a Gardener-Holdt viscosity of N. The reaction was quenched by addition of 398 g.
water, 6 g. formic acid and external cooling. The resulting solution had a solids content of 20% and a pH of 5.
Acid anhydrides useful as cellulose reactive sizing agents for paper are well known in the art and include (A) rosin anhydride, see U.S. patent 3,582,464; (B) anhydrides having the structure
wherein R1 is a saturated or unsaturated hydrocarbon radical, the hydrocarbon radical being a straight or branched chain alkyl radical, an aromatic substituted alkyl radical, or an alkyl substituted aromatic radical so long as the hydrocarbon radical contains a total of from 11 to 39 carbon atoms; and (C) cyclic dicarboxylic acid anhydrides having the structure
where R' represents a dimethylene or trimethylene radical and where R" is a hydrocarbon radical containing from 8 to 22 carbon atoms selected from alkyl, alkenyl, aralkyl or aralkenyl. Substituted cyclic dicarboxylic acid anhydrides falling within the above formula (II) are substituted succinic and glutaric anhydrides. In formula (I) above each R1 can be the same hydrocarbon radical or each R1 can be a different hydrocarbon radical.
Specific examples of anhydrides of formula (I) are myristoyl anhydride; palmitoyl anhydride; oleoyl anhydride; and stearoyl anhydride.
Specific examples of anhydrides of formula (II) are iso-octadecenyl succinic acid anhydride; n-hexadecenyl succinic acid anhydride; octenyl succinic acid anhydride; and octyl glutaric acid anhydride.
Hydrophobic organic isocyanates used as sizing agents for paper are well known in the art.
Best results are obtained when the hydrocarbon chains of the isocyanates contain at least 12 carbon atoms, preferably from 14 to 36 carbon atoms. Such isocyanates include rosin isocyanate; dodecyl isocyanate; octadecyl isocyanate; tetradecyl isocyanate; 6-ethyldecyl isocyanate; 6-phenyldecyl isocyanate; and polyisocyanates such as 1,18-octadecyl diisocyanate and 1,12-dodecyl diisocyanate, wherein one long chain alkyl group serves two isocyanate radicals and imparts hydrophobic properties to the molecule as a whole.
Ketene dimers used as cellulose reactive sizing agents are dimers having the formula: (R"'CH = C = )2 where R" ' is a hydrocarbon radical, e.g. alkyl having at least 8 -carbon atoms, cycloalkyl having at least 6 carbon atoms, aryl. aralkyl and alkaryl. In naming ketene dimers, the radical R" ' is named followed by "ketene dimer". Thus. phenyl ketene dimer is: benzyl ketene dimer is:
and decyl ketene dimer is (C10H2 1-CH = C = 0)2. Examples of ketene dimers include octyl.
decyl, dodecyl. tetradecyl, hexadecyl, octadecyl, eicosyl, docosyl, tetracosyl, phenyl, benzyl beta-naphthyl and cyclohexyl ketene dimers, as well as the ketene dimers prepared from montanic acid, naphthenic acid. 9'0-decylenic acid, 9 l0-dodecylenic acid, palmitoleic acid.
oleic acid, ricinoleic acid, linoleic acid, linolenic acid, and eleostearic acid, as well as ketene dimers prepared from naturally occurring mixtures of fatty acids, e.g. those mixtures found in coconut oil, babassu oil. palm kernel oil. palm oil, olive oil, peanut oil. rape oil, beef tallow, lard (leaf) and whale blubber. Mixtures of any of the above-named fatty acids with each other may also be used.
Example 5 An emulsion of a ketene dimer prepared from a mixture of palmitic and stearic acids is prepared by admixing 880 parts of water, 60 parts of cationic corn starch and 10 parts of sodium lignin sulfonate. The mixture is adjusted to pH of about 3.5 with 98% sulfuric acid.
The resulting mixture is heated at 900-950C. for about one hour. Water is then added to the mixture in an amount sufficient to provide a mixture of 1750 parts (total weight). About 240 parts of the ketene dimer is stirred into the mixture together with 2.4 parts of thiadiazine. The thiadiazine is used as a preservative. The resulting premix (at 650C) is homogenized in one pass through an homogenizer at 4000 p.s.i. The homogenized product is diluted with water to a ketene dimer solids content of about 6%.
As well known in the art, hydrophobic cellulose reactive sizing agents are used in the internal sizing of paper and in the external sizing of paper. The accelerators of this invention can be used in combination with the sizing agent in either method.
Example 6 The products of Example 1 and Example 5 were combined with addition of water, as required, to provide an aqueous sizing composition comprised of 0.10% ketene dimer and 0.10% of the nitrogen-containing polymer of Example 1.
Example 7 The products of Example 2 and Example 5 were combined with addition of water, as required, to provide an aqueous sizing composition comprised of 0.10% ketene dimer and 0.10% of the nitrogen-containing polymer of Example 2.
Example 8 The products of Example 3 and Example 5 were combined with addition of water, as required, to provide an aqueous sizing composition comprised of 0.10% ketene dimer and 0.10% of the nitrogen-containing polymer of Example 3.
Example 9 The products of Example 4 and Example 5 were combined with addition of water. as required, to provide an aqueous sizing composition comprised of 0.10% ketene dimer and 0.10% of the nitrogen-containing polymer of Example 4.
Example 10 An aqueous sizing composition was prepared to provide a sizing composition as in Examples 6. 7, 8 and 9 with the exception that as the nitrogen-containing polymer there was employed an aminopolyamide-epichlorohydrin resin. The aminopolyamide was derived from adipic acid and diethylenetriamine. The test results show this cationic polymer does not function as an accelerator for ketene dimer.
The above sizing compositions are applied to the surface of a sheet of 40 lb./3000 ft.2 waterleaf paper. The sheet is made from a 50:50 hardwood;softwood pulp blend on a pilot paper machine. Each sizing composition is adjusted to pH 7 before application to the sheet in the nip of a horizontal size press. The size press runs at 40 ft./min. and the wet pickup is 70%.
Retention of the ketene dimer size is the same in all of these runs. The sized sheets are dried at 93"C. for 20 sec. on a laboratory drum drier to 5 % moisture. The sizing is measured by the Hercules Size Test with test solution No. 2 to the indicated reflectance. The off-machine data are obtained within two minutes of drying and the natural aged data after 2-5 days storage at room temperature. It is known in the art that ketene dimer size develops substantially all its sizing properties in the paper in 3 days. After this time the size properties of the paper remain essentially the same. The off-machine result is the critical result as it reflects the rate at which sizing develops. The surface application of the sizing compositions eliminates any retention effects of the cationic polymer used.
Size results are set forth in the Table below.
Table Sizing Hercules Size Test Composition Off-The Machine Natural Aged of Example to 80 % Reflectance to 85 % Reflectance 6 127 540 7 26 517 8 15 450 9 165 536 10 0 525 Control (ketene 0 450 dimer alone) The above description is illustrative of this invention and not in limitation thereof.
WHAT WE CLAIM IS: 1. A nitrogen-containing polymer selected from (1) a cationic polymer obtained by reacting an epihalohydrin with a condensate derived by condensing dicyandamide or cyanamide with bis-aminopropylpiperazine; (2) a cationic polymer obtained by reacting an epihalohydrin with a condensate derived by condensing dicyandiamide or cyanamide with a condensate of an alkylenediamine and an epihalohydrin; (3) a cationic polymer obtained by reacting an epihalohydrin with a condensate derived by condensing 1 ,3-dicyanobenzene with a polyalkylenepolyamine; and (4) a cationic polymer obtained by condensing an epihalohydrin with bis-aminopropylpiperazine.
2. A cationic polymer obtained by reacting epichlorohydrin with a condensate derived by condensing dicyandiamide or cyanamide with bis-aminopropylpiperazine.
3. A cationic polymer obtained by reacting epichlorohydrin with a condensate derived by condensing dicyandiamide or cyanamide with a condensate of an alkylenediamine and epichlorohydrin.
4. The cationic polymer of Claim 3 wherein the alkylenediamine is ethylenediamine.
5. A cationic polymer obtained by reacting epichlorohydrin with a condensate derived by condensing 1,3-dicyanobenzene with a polyalkylenepolyamine.
6. The cationic polymer of Claim 5 wherein the polyalkylenepolyamine is diethylenetriamine.
7. The cationic polymer of Claim 5 wherein the polyalkylenepolyamine is triethylenetetramine.
8. A cationic polymer obtained by condensing epichlorohydrin with bisaminopropylpiperazine.
9. A sizing composition in the form of an aqueous emulsion comprising (A) a hydrophobic cellulose-reactive sizing agent and (B) at least one of the nitro-containing polymers of any one of claims 1 to 8.
10. The sizing composition of claim 9 wherein the sizing agent is a ketene dimer.

Claims (15)

  1. **WARNING** start of CLMS field may overlap end of DESC **.
    Table Sizing Hercules Size Test Composition Off-The Machine Natural Aged of Example to 80 % Reflectance to 85 % Reflectance
    6 127 540
    7 26 517
    8 15 450
    9 165 536
    10 0 525 Control (ketene 0 450 dimer alone) The above description is illustrative of this invention and not in limitation thereof.
    WHAT WE CLAIM IS: 1. A nitrogen-containing polymer selected from (1) a cationic polymer obtained by reacting an epihalohydrin with a condensate derived by condensing dicyandamide or cyanamide with bis-aminopropylpiperazine; (2) a cationic polymer obtained by reacting an epihalohydrin with a condensate derived by condensing dicyandiamide or cyanamide with a condensate of an alkylenediamine and an epihalohydrin; (3) a cationic polymer obtained by reacting an epihalohydrin with a condensate derived by condensing 1 ,3-dicyanobenzene with a polyalkylenepolyamine; and (4) a cationic polymer obtained by condensing an epihalohydrin with bis-aminopropylpiperazine.
  2. 2. A cationic polymer obtained by reacting epichlorohydrin with a condensate derived by condensing dicyandiamide or cyanamide with bis-aminopropylpiperazine.
  3. 3. A cationic polymer obtained by reacting epichlorohydrin with a condensate derived by condensing dicyandiamide or cyanamide with a condensate of an alkylenediamine and epichlorohydrin.
  4. 4. The cationic polymer of Claim 3 wherein the alkylenediamine is ethylenediamine.
  5. 5. A cationic polymer obtained by reacting epichlorohydrin with a condensate derived by condensing 1,3-dicyanobenzene with a polyalkylenepolyamine.
  6. 6. The cationic polymer of Claim 5 wherein the polyalkylenepolyamine is diethylenetriamine.
  7. 7. The cationic polymer of Claim 5 wherein the polyalkylenepolyamine is triethylenetetramine.
  8. 8. A cationic polymer obtained by condensing epichlorohydrin with bisaminopropylpiperazine.
  9. 9. A sizing composition in the form of an aqueous emulsion comprising (A) a hydrophobic cellulose-reactive sizing agent and (B) at least one of the nitro-containing polymers of any one of claims 1 to 8.
  10. 10. The sizing composition of claim 9 wherein the sizing agent is a ketene dimer.
  11. 11. A method of producing sized paper or paper board from cellulose stock in which there is employed a sizing composition as claimed in claim 9 or 10.
  12. 12. In the method of sizing paper with a hydrophobic cellulose-reactive sizing agent and a sizing accelerator. the improvement wherein there is employed as the sizing accelerator any of the cationic polymers as claimed in any one of claims 1 to 8.
  13. 13. In the method of sizing paper with a ketene dimer sizing agent and a sizing accelerator. the improvement wherein there is employed as the sizing accelerator any of the cationic polymers as claimed in any one of claims 1 to 8.
  14. 14. A nitrogen-containing cationic polymeric condensation product of an epihalohydrin according to claim l substantially as described in the foregoing Examples.
  15. 15. A sizing composition according to claim 9 substantially as described in the foregoing Examples.
GB3490977A 1977-08-19 1977-08-19 Sizing accelerator Expired GB1587912A (en)

Priority Applications (14)

Application Number Priority Date Filing Date Title
GB3490977A GB1587912A (en) 1977-08-19 1977-08-19 Sizing accelerator
CA000308041A CA1144691A (en) 1977-08-19 1978-07-25 Sizing accelerator
US05/932,103 US4243481A (en) 1977-08-19 1978-08-09 Sizing compositions
AT0601178A AT370120B (en) 1977-08-19 1978-08-18 METHOD FOR PRODUCING NEW POLYMERS
AU54274/80A AU534918B2 (en) 1977-08-19 1980-01-02 Sizing composition for papermaking
SE8000053A SE433235B (en) 1977-08-19 1980-01-03 PROCEDURE FOR INTERNAL AND EXTERNAL LIMITATION OF PAPER AND LIMITATION COMPOSITION FOR THE IMPLEMENTATION OF THE PROCEDURE
DE19803000502 DE3000502A1 (en) 1977-08-19 1980-01-08 SIZING AGENTS AND METHOD FOR SIZING PAPER AND CARDBOARD
NLAANVRAGE8000117,A NL186815C (en) 1977-08-19 1980-01-09 APPRESSICATOR, METHOD FOR PREPARING AN APPRECATOR AND METHOD FOR APPRECIATE PAPER.
JP94780A JPS56101998A (en) 1977-08-19 1980-01-10 Sizing composition
FR8001000A FR2474042A1 (en) 1977-08-19 1980-01-17 COMPOSITION FOR PAPER AND PAPERBOARD PRIMER COMPRISING A HYDROPHOBIC PRIMER AGENT REACTING WITH CELLULOSE AND A CATIONIC POLYMER AND METHOD OF USING SAME
CH43180A CH643019A5 (en) 1977-08-19 1980-01-18 PROCESS FOR PRIMING PAPER.
BE0/199052A BE881262A (en) 1977-08-19 1980-01-21 COMPOSITION FOR PRIMING PAPER AND CARDBOARD AND METHOD OF USING SAME
US06/180,187 US4317756A (en) 1977-08-19 1980-08-22 Sizing composition comprising a hydrophobic cellulose-reactive sizing agent and a cationic polymer
AT179281A AT375424B (en) 1977-08-19 1981-04-21 GLUE COMPOSITION AND THEIR USE

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
GB3490977A GB1587912A (en) 1977-08-19 1977-08-19 Sizing accelerator

Publications (1)

Publication Number Publication Date
GB1587912A true GB1587912A (en) 1981-04-15

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
GB3490977A Expired GB1587912A (en) 1977-08-19 1977-08-19 Sizing accelerator

Country Status (1)

Country Link
GB (1) GB1587912A (en)

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