TH179843A - Optimizing polycarboxylate mixtures for cement-based mixtures - Google Patents

Abstract

------ 28/02/2018 ------ (OCR) page 1 of number 1 page invention summary. This invention provides mixtures and methods for modifying hydrated cement mixtures such as concrete or mortar (lime or cement mixture with sand and water) using potimore. At least three different carboxylates, even in the presence of clay in concrete or mortar, this increases the dose-efficiency of polycarboxylate polymers, which are used as reagents. Reduced dispersion The three polycarboxylate polymers, also known as polymers I, polymer II, and polymer III are obtained from the monomer components A, B, and C, where A component is carboxylic acid. Unsaturated type, B component is polyoxymethylene, and component C is unsaturated carboxylate ester. The mole ratios of components for AB: C differ between potimores I and II, while the mole ratios of components A: B + C are determined precisely for the potimores III. Treated with 3 different polycarboxylate pylers such as hydrated cement mixtures have initial usability and properties. The improved collapse was a particularly surprising increase. In case of clay in it ------------ page 1 of number 1 page summary of invention This invention provides elements And methods for modifying similar elements Hydrated cement, such as conic acid or mortar, by using at least three carboxylates. Different polymers are different, even when there is clay in the structure. Or other mortars that will do Provide efficiency of the used size of polycarboxylate Reduced polymers are used as dispersants. Three types of polycarboxylate polymers, known as polymers I, polymer II, and polymer II, are derived from the constituents A, B, and C, where they A is a carboxylic Unsaturated acid, B component is polyoxymethylcholine, and component C is carboxylate. Unsaturated ester ratio range by mole of components for A: B: C differs as between polymers I and II; While different molar ratios of component A: B + C were classified for polymer III when treated with polycarboxylate. Of these three different polymers, the composition of which Similar to hydrated cement, it increases surprisingly in terms of its ability to Start work And the persistence is greatly reduced, especially if clay is present:

Claims (1)

: ------ 28/02/2018 ------ (OCR) page 1 of number 1 page invention summary. This invention provides mixtures and methods for modifying hydrated cement mixtures such as concrete or mortar (lime or cement mixture with sand and water) using potimore. At least three different carboxylates, even in the presence of clay in concrete or mortar, this increases the dose-efficiency of polycarboxylate polymers, which are used as reagents. Reduced dispersion The three polycarboxylate polymers, also known as polymers I, polymer II, and polymer III are obtained from the monomer components A, B, and C, where A component is carboxylic acid. Unsaturated type, B component is polyoxymethylene, and component C is unsaturated carboxylate ester. The mole ratios of components for A: B: C differ between the potentiometers I and II, while the mole ratios of components A: B + C are precisely determined for the potencies III. When treated with three different polycarboxylate pylers such as hydrated cement mixtures had initial usability and properties retention. The improved collapse was a particularly surprising increase. In case of clay in it ------------ page 1 of number 1 page summary of invention This invention provides elements And methods for modifying similar elements Hydrated cement, such as conic acid or mortar, by using at least three carboxylates. Different polymers are different, even when there is clay in the structure. Or other mortars that will do Provide efficiency of the used size of polycarboxylate Reduced polymers are used as dispersants. Three types of polycarboxylate polymers, known as polymers I, polymer II, and polymer II, are derived from the constituents A, B, and C, where they A is a carboxylic Unsaturated acid, B component is polyoxymethylcholine, and component C is carboxylate. Unsaturated ester ratio range by moles of components for A: B: C differs as between polymers I and II; While different molar ratios of component A: B + C were classified for polymer III when treated with polycarboxylate. Of these three different polymers, the composition of which Similar to hydrated cement, it increases surprisingly in terms of its ability to Start work And the persistence is greatly reduced, especially if there is clay, the claim (number one), which will appear on the post: tag: