TH12955B - Catalyst mixtures and methods for curing urea-formaldehyde resins. - Google Patents

Abstract

What was revealed are binder mixtures for binder backing materials such as wood raw materials for particle board production. Binder consists of a mixture of solutions. In the first kind of water Which contains buffered salt type catalysts and offers Acids belong to the second aqueous solution. The use of buffered salt as a catalyst for the curing of urea-formaldehyde resins was also treated with urea and formaldehyde. Also disclose

Claims (3)

1.1. Which aqueous solution The second type contains about 10 to approximately 40 percent of free urea by weight. The amount of at least one buffered salt in the mixture is approximately 0.05 to approximately 15 percent the weight of the second aqueous solution and approximately 0 to approximately 2 percent by weight of the second aqueous solution. Free formaldehyde 2. Mixture of binder of claim 1 Aqueous solution of type one has a 3. The mixture of claim 1 binder aqueous solution has a pH of approximately 3.5 to approximately 6 4. Mixture of claim 1 binder where the pH of aqueous solution Kind One equals approximately 4 to approximately 5. 5. Mixture of binder 1 in which the salt catalyst is It is a buffer consisting of monopathium phosphate, dipotassium phosphate, tri-potassium phosphate, trisodium phosphate, sodium acetate, sodium citrate borate. Phthalates bicarbonate and their mixtures 1. And the second aqueous solution contains approximately 10 to approximately 30 percent of free urea by weight. 7. Mixture of claim 1 binder, with additions containing A member of the group containing wood raw materials for the production of particle borate. Fibers for particle boards, Fibers for boards, Medium density fibers Veneer for the production of plywood and glass fibers for making fiberglass. 8. Mixture of binder of claim 1, selected by urea-formaldehyde resin. From the group containing melamine modified urea-formaldehyde resin. Urea-formaldi Ammonia modified hard resin And urea-formaldehyde resin modified with phenol 9. Mixture of binder of claim 1, which contains buffered salts in The volume is 0.005 to approximately 5% by weight of the second aqueous solution 1 0. The binder mixture of claim 1, with additional components containing At least one substance from the group containing sodium chloride, sodium sulfate, magnesium sulfate, ammonium sulfate, ammonium formate, ammonium phosphate, ammonium acetate, ammonium chloride, and mixtures. 1 1. Mixture of binder of claim 1 in which aqueous solution of the first type Supplement containing at least one substance from the group Containing ammonium sulfate and Sodium sulfate. 1 2. Mixture of binder of claim 1 in which buffered salts have a range of Being a buffer range and the pH of the first solution is below that of the buffer 1 3. The binder mixture of claim 1, in which the buffered salt has a range of The buffer salt is a period of buffer and the pH is in the lower half of the buffer. 1 4. The binder mixture of claim 1 in which the buffered salt has a range of At least one buffering range and the pH of one solution is out of any buffering range. Buffered salt 1 1. In which the second aqueous solution contains about 10 to approximately 40 percent free urea by weight, as a binder. Where the amount of at least one buffered salt in a first aqueous solution This equates to approximately 0.5 to approximately 15 percent by weight and second aqueous solution and approximately 0 to approximately 2 percent by weight of the second aqueous solution as free formaldehyde. Holds the 15th right, which contains an additional component containing the presence of acid in a substance Soluble in water, type I 1 7. Method of claim 15, which includes the addition of an acidic acid. It is sufficient to adjust the pH as much as possible down to the lower apparatus of the buffer salt buffer range. 1 8. Method of claim 15, which includes additions containing binder mixtures. With support material The first and second aqueous solutions were mixed as a binder immediately first. Mixing of binder and substrate 1 9. Method of claim 15 where the supplementary section constitutes the effect of It is a neutral buffered salt, at least partially, by acidification to the substance. Dissolve in first type before mixing the first and second aqueous solutions 2 0. Method of claim 19 in which the effect of buffering is all neutralized. 1. Method of claim 15 in which the pH of the first aqueous solution is approximately 3.5 to approximately 6. 2. 2. Method of claim 15, in which the first aqueous solution contains a salt that is The buffer was approximately 0.5 to approximately 5 percent by weight of the second aqueous solution. 2. 3. Method of claim 15 where the mole ratio of urea: formaldehyde. This equates to approximately 0.62 to approximately 1.67: 1 and the second aqueous solution contains approximately 10 to 30 percent free urea by weight 2. 4. Method of claim 15, where the pH of the first aqueous solution is equal to Approximately 4 to approx. 5 2 5. Claim Method 15, which includes an additional component containing a mixture Adheres to select supports from a group consisting of wood raw materials for particle board production. Fiber board, medium density fiber Veneer for making plywood and glass fibers For making fiberglass sheets 2 6. Method of claim 15 in which buffered salts contain substances of the Contains monopotassium phosphate, dipotassium phosphate, tri-potassium phosphate, sodium acetate, sodium citrate, borate, phthalate bicarbonate. 2 7. Method of claim 15, which includes the addition of a mixture of substances in the group. Containing sodium chloride, sodium sulfate, magnesium sulfate, magnesium sulphate, ammonium sulfate, ammonium phosphate, ammonium acetate, ammonium chloride and their mixtures with aqueous solutions. First 2 8. Method of claim 15 where the pH of the first aqueous solution is below the range. Being a buffered salt solution 2. 9. Method of claim 15 where the pH of the first aqueous solution is half. The lower of the buffer range of the buffered salt. 3 0. Method of claim 15 in which the buffered salt has a buffer range as At least one range and the pH of a particular solution is out of any buffering range. Of buffer salts 31 binder mixture of claim 1 in which buffered salts have a range of Is more than one buffer range, and the pH of one solution is (i) in the lower half of the buffer range is (ii) lower than at least one of the buffer range. It is not in any buffer range. 3 2. Mixture of claim 1 binder, in which the buffer salt has more than one. The buffer range and the pH of one solution is (i) in the lower quarter of the buffer range, (ii) at least one lower than the buffer range. And not in any buffering range 3 1.3 4. Mixture of binder of claim 1, in which buffered salts are present in the amount of This equates to approximately 0.7 to approximately 5 percent by weight of the second aqueous solution. 3 5. The binder mixture of claim 1, in which buffered salts are present in the amount of aqueous solution. It is equal to approximately 1 to about 5% by weight of the second aqueous solution 3 1. And the reaction of the reaction at pH from about 7.0 to about 8.5 and temperature from about 140 ํ to about 21 ํ F The selected product is added from mono-, di- and tri-methyl urea. And their mixtures, a decrease in the pH of the mixture below 7.0 to accelerate the condensation to transform. Methyl urea to an ilicomer, which is connected by methylene. And convert oligomers into polymers that Connected with methylene to form a polymer-containing mixture. Neutralization of polymer-containing mixtures and addition of urea to neutralized polymer-containing mixtures 3 7. Binder mixtures of claim 36, where additional assembly processes apply. Addition of sodium hydroxide Or amine into the urea mix And formaldehyde for the cause of Mixing reaction 3 1. To form a reaction mixture. And the reaction of the reaction mixture at pH from approximately 7.0 to approximately 8.5 and temperature from approximately 140 ํ to about 212 ํ. Mono-, di- and tri-methyl urea and their mixtures. A decrease in the pH of the mixture below 7.0 accelerates the condensation to transform. Methyl urea to an iliacomer, which is connected by methylene. And convert oligomers into polymers that Connected with methylene to form a polymer-containing mixture. Neutralization of polymer-containing mixtures and addition of urea to polymer-neutralized mixtures 3 9. Method of claim 38 consists of addition of sodium hydroxide or a Amine into urea mixtures And formaldehyde to form a mixture of reactions 4 0. The method of claim 15 in which the buffered salt has more than one buffer range and the pH of the first solution is (i) in One lower half of the buffer range, or (ii) below at least one of the buffer range. The amount of at least one buffered salt in the mixture is approximately 0.05 to approximately 15% by weight of the second aqueous solution and approximately 0 to approximately 2. The percentage by weight of the second aqueous solution is free formaldehyde, in which the substance The buffered salt type catalyst consists of members of a group containing mono-potassium phosphate, dipotassium phosphate, tri-potassium phosphate, sodium acetate, sodium. Citrates, borates, phthalates, bicarbonates and their mixtures 4 2. Mixture of binder 39, where the salt-based catalyst As a buffer, it was selected from a group containing monopathium phosphate, dipotassium phosphate, tri-potassium phosphate, sodium acetate, sodium citrate, phthalate. , Bicarbonates and their mixtures 4 3. Method for obtaining rapid curing of composite urea-formaldehyde resin. With the steps of Mixing a first aqueous solution containing at least one buffered salt, the first aqueous solution, having a pH between 2 and approximately 8.5 with the first aqueous solution. Two of which contain urea And formaldehyde at a molar ratio of approximately 0.33 to approximately 1.67: 1 to form a binder where at least one buffered salt content in the first aqueous solution is approximately 0.05 to Approximately 15% by weight of solution weight. In the second type of water and approximately 0 to approximately 2% by weight of the second aqueous solution. It is an independent maldehyde buffer. Where the buffered salt contains members of the group consisting of mono Potassium phosphate, Dipotassium phosphate, Tri-potassium phosphate, sodium acetate, sodium citrate, borate, Phthalates bicarbonate and their mixtures