TH6845B - Polymer components to form hydrogels for use in sorbent structures. - Google Patents

Abstract

This invention involves a polymer component to form an improved hydrogel. It can be used as an adsorbent in absorbent structures and absorbent materials such as diapers, sanitary napkins, and others. some Slightly crosslinked, mostly insoluble which was prepared from Monomers with the presence of an acid group can be polymerized. Unsaturated type and crosslinking agent The polymer material that will form these hydrogels. When the fluid is absorbed, a hydrogel is formed. Such polymer materials have a relatively high gel volume. Relatively high gel strength as measured by the hydrogel shear molarity formed The polymer has a relatively low level of extractable polymer material that can be extracted from the polymer by contact with the synthetic polymer urine. An ideal hydrogel with these characteristics can be prepared by polymerizing an acidic monomer with a free acid group with a concentration of monomers. relatively low This is ideal by using a relatively low polymerization temperature. These sorbent structures and sorbents containing polymeric materials to form dried hydrogels were also revealed.

Claims (5)

1.Polymer components to form partially neutralized hydrogels. Little cross-linked Mostly insoluble It is also important (a) monomer with polymerized acid groups. Unsaturated The polymerization from approximately 50 mol% to 99.999 mol% (b) crosslinking agents from approximately 0.001 mol% to 5 mol%. Where the components are at least approximately 25% neutralization levels and are virtually non-grafted polymerized moisture-free polymerization. And further where the polymer content, when neutralized to at least 50% neutralization level, has and has at least approximately 20 g of synthetic urine per gram of gel volume. That will form a hydrogel The gel power that the hydrogel formed by the polymer gives a shear modulus of at least approximately 2000 dine / cm2. The amount of the polymer to be extracted in At the beginning After 1 hour in the synthetic urine, it is not greater than approximately 7.5% by weight of the polymer to form hydrogel and the amount of the polymer to be extracted at the equilibrium point. The equilibrium in synthetic urine is not greater than approximately 17% by weight of the polymer to form hydrogels. 2. Polymer components to form hydrogels according to the claim No. 1 that is characterized by the fact that it is composed of (a) a monomer with a polymerized acid group. Unsaturated Polymerized then From approximately 75 mol% to 99.99 mol% (b) crosslinking agent from approximately 0.01 mol% to 3 mol% 3.Polymer components to be hydrogenated according to claim 1. Or 2, characterized by the fact that (a) the component has at least a degree of neutralization of approximately 50% (b) the constituent has a gel volume ranging from approximately 25 to 80 g of synthetic urine per gram of sufficient The polymer to be hydrogel (c) The hydrogel formed by the component has a gel strength that the hydrogel gives a shear modulus ranging from approximately 2500 to 92000. N / cm2 (d) This component contains the initial amount of the polymer to be extracted. After 1 hour in the synthetic urine, not more than approximately 5% by weight of the polymer to form hydrogel and (e) the component contains the amount of the polymer to be extracted. Get at balance The equilibrium in synthetic urine is not greater than approximately 10% by weight of the polymer to form hydrogels. 4. The polymer component to be hydrogenated according to claim 3, characterized by The fact that (a) monomer with an acid group is chosen from acrylic acid, methacrylic acid and 2-acrylamido-2-methyl propane. And (b) crosslinking agents selected from (i) di- and polyvinyl compounds; (ii) di- and polyesters of polycrystalline acids. No- and polycarboxylic Unsaturated with polyol (iii) bisacrylamide (iv) carbamyl ester obtained from the reaction of polyisocyanate with monomer. Di- and polyethylene (vi) di- and polyethylene ether hydroxyl groups of di- and polyolyl ether Licarboxylic (vii) esters of mono- and unsaturated polycarboxylic acids with Mono -allyl ester of polyols and (viii) di- and trilylylamine 5. Polymer components to form hydrogels according to Clause 4 is characterized by the fact that the crosslinking agent is selected from the n, n-methylene bisacrylamide, trimethylone-propane tri-acrylate. Moderate And trillylamine 6. The polymer component to form hydrogel according to one of the claims 1-5, characterized by the fact that The relation between gel volume, v, and the amount of polymer to be extracted at equilibrium, e, is denoted by equation e less than or equal to 0.23 v - 3.0 7. The polymer composition to be formed. Is a hydrogel according to one of claims 1-6, characterized by the fact that the relationship between gel volume, v, and shear modulus, s, is expressed by The log s equation is less than or equal to -2.494 log v + 8.090 8. Process for preparing hydrogels or polymer materials to form partially neutralized hydrogen. Little cross-linked Mostly insoluble Suitable for use in absorbent products The process consists of (a) the preparation of a reaction mixture composed mainly of an acidic monomer. In the form of free acids that can be polymerized The unsaturated species ranged from approximately 5% to 35% by weight, the crosslinking agent from approximately 0.001 mol% to 5 mol% based on the polymerized mole of the polymerized monomer and the initiator. Free radicals ranging from 0 mole percent to approximately 5 mole percent calculated from the polymerized mole of the monomer. In an aqueous medium without moiste polymers that are truly grafted polymerized (b), the reaction mixture in water enters the polymerization state that Sufficient to produce a slight cross-linked polymer material. Most of the water insoluble was raised there, which, when in the subsequent neutralization to at least 50% of the neutralization level, and on subsequent drying. Contains or will have a gel volume, v, at least approximately 20 g of synthetic urine per gram of the polymer to form hydrogels. The gel power is the kind that hydrogel is formed from a loud polymer material. That said, having shear modulus, s, is at least approximately 2000 dine / cm2, the amount of polymer that was initially extracted after being in the synthetic urine for 1 hour was no more. Approximately 7.5% by weight of the polymer to form hydrogels. The amount of the polymer to be extracted at equilibrium, e, is not greater than approximately 17% by weight of the polymer to be hydrogenated. And the relationship between the gel volume, v, and the amount of polymer extracted at equilibrium, e, expressed by equation e less than or equal to 0.23 v -3.0 and (c) the acidification of the Polymer materials formed in at least partially neutralized reaction mixtures with salt cation to form partially neutralized polymer materials. 9. Process according to claim 8, characterized by the fact that (a) the acid group of the polymer material formed in the reaction mixtures in Water is impregnated with cationic salt to form a polymer material with at least a 50% degree of neutralization. (B) The impregnated polymer material. The gel volumes range from approximately 25 to 80 grams of synthetic urine per gram of polymer to form a gel. (C) Such impregnated polymer material forms a hypo Such hydrogels have a shear modulus of approximately 2500 to 9200 dine / cm2, and (d) the impregnated polymer material. There were estimates of polymers that were initially extracted. After 1 hour in the synthetic urine, it is no more than approximately 5% by weight of the polymer to form hydrogel and the amount of the polymer to be extracted at the equilibrium point. The equilibrium in synthetic urine is not greater than approximately 10% by weight of the polymer to form a gel 1 0. Process by one of the claims 8 through 9 that characterizes. By the fact that (a) monomer with an acid group is chosen from acrylic acid methacrylic acid 2-acrylamido-2-methyl propane. And (b) crosslinking agents selected from (i) di- and polyvinyl compounds; (ii) di- and polyesters of polycrystalline acids. No- and polycarboxylic (iii) bisacrylamide (iv) carbamide ester obtained by the reaction of polythocyanate. With monomers with hydroxyl (v) di- and polyethylene ether groups of di- and polyollyl ether. Of polycarboxylic acid (vii) ester of mono- and unsaturated polycarboxylic acid with Mono-Lylyl Ester of polyol and (viii) DI- and TRIllLAMINE 1. 1. Process by which one of the claims of a claim. 8 to 10 is characterized by the fact that the aqueous mixture contains (a) monomer with an acid group ranging from approximately 8% to 24% by weight (b) crosslinking agent from approximately 0.01 mo. % To 3 mol% and (c) free radical initiatives ranging from approximately 0.001 mol% to 0.5 mol%. And polymerization conditions in which the reaction mixture was imported This includes the polymerization temperature ranging from approximately 5 ° C to 40 ° C. 1 2. Process by any of the claims 8 to 11 that characterizes the fact that That free radical initiatives contain Peroxide compounds Or contains a redox initiator system made by combining substances Complement peroxide and Reduction 1 3. Process according to claim 12, characterized by fact, the initiator is a sodium-based peroxide compound. Potassium and Ammonium Persulfate Capryyl Peroxide Benzoyl peroxide, Hydrogen Peroxide, Dewamine, Hydroperoxide, Tercery-Butyl Diper-Phthalate Tercia-Butyl Perben-Soet Sodium peracetate and sodium percarbonate And where the redox initiator system consists of the aforementioned aggregate of the aforementioned peroxygenated compounds with a selective reducing agent based on sodium bisulfite. L-ascorbic acid And ferrous salt 1. 4. Process according to claim 13, characterized by the fact that The initiating substance or composition of the initiating substance was gradually Add sufficient quantity to the reaction mixture in water. Will only promote the complete polymerization of monomer containing acids and crosslinking agents 1 5.Process for any of the claims 8 through 14 that Characterized by the drying of the polymer materials produced in this aqueous reagent 1 6. The process of claim 15 is characterized by the fact that the drying process is performed by a The polymer material enters temperatures ranging from approximately 40 ° C to 150 ° C for a sufficient period of time to form the semi-solid mass of the polymer material to form an idrogel. By using such polymer materials, it is processed with a dehydrated solvent or by removing water from the polymer material by constant boiling point compound distillation.1 7.Process According to one of Claims 8 through 16, characterized by the fact that the Suspended in a small drop shape In organic solvents that are not miscible with water, and such small droplets are introduced into polymerization using the inverse suspension polymerization method or inverse emulsion 1 8. . One of the claims processes of claims 8 through 17 characterized by the fact that the crosslinking agent is selected from the n, n-methylene bisacrylamide. Trimethyl propane, triacrylate and trilylamine 1 9. Optimized absorbent structure for use in disposable diaper pieces is characterized by the fact that it consists of: (A) Hydrophilic fiber material ranging from approximately 50% to 98% by weight of the structure, and (b) the separate particles of the polymer material to form a completely dry hydrogel. real Partially neutralized Little cross-linked Most of them are insoluble. It is produced from the components of claim 1 to 7, ranging from approximately 2% to 50% by weight of the structure 2 0. Absorbent structure according to claim. Rights No. 19, characterized by the fact that Hydrophilic fiber material comprises approximately 65% to 90% by weight of such structures and where polymer particles constitute approximately 10% to 35% by weight of such structures. 1. Absorbent structures according to claims 19 to 20, characterized by the fact that they have a density ranging from approximately 0.06 to 0.3 g / cm 3 2. 2.A absorbent structure according to one of the claims 19 to 20, characterized by the fact that it has a density ranging from approximately 0.09 to 0.18 g / cm3, base weight from approximately 0.02 to 0.12. It is further characterized by the fact that it consists of a mixture of wood pulp fibers and polymer particles with particle sizes ranging from about 50 microns to 1 mm 2. 3. Absorbent material, including diapers, characterized by the fact that it consists of: (a) impermeable support pads (b) relatively hydropholic upper pads. And (c) an absorbent core consisting of an absorbent structure pursuant to claim 19 placed between it and the top plate 2. 4. The object according to claim 23, characterized by the fact that the sorbent core consists of an hourglass-shaped sorbent structure made up of mixtures of hydrophilic fiber and polymer particles. Will form a hydrogel by air assisted method 2 5. Diaper objects according to claims 23 to 24 are characterized by the fact that The polymer-based absorbent structure consists of an insert located under the upper layer of the core, the upper layer in the shape of an hourglass and composed mainly of fibrous material. Wood pulp and polymer material particles to form hydrogels range from approximately 0% to approximately 8% by weight.