TH10279B - Making concrete that has to be disposed of again - Google Patents

Abstract

Method for reusing unused pre-mixed concrete which consists of steps of 1) before the concrete hardens A sufficient amount of antifreeze was added to suppress the uptake reaction for a period of time. This may last up to 90 hours. 2) At the end of the desired inhibition period, curing agent is added to the inhibited concrete to restore its hardening state.

Claims (7)

1. Method for reusing the unused concrete mix. Which consists of steps of 1) before the concrete hardens Adequate amounts of coagulation inhibitor were added to sustain the reabsorption reaction for another period of time. This can be as long as 90 hours. 2) At the end of the desired coagulation period. Add hardening agent to the concrete that has been frozen. 2. Method as defined in claim 1, in which the retained concrete is diluted with new concrete before adding the hardening agent. As defined in claim 1 or 2, the coagulation inhibitor contains at least one phosphonic acid derivative. 4. Methods as defined in claim 3, in which the inhibitor is The coagulant contains at least one substance that is selectable from aminotri (methylene phosphonic acid) pentasodium salt of aminotri. (Methylene phosphonic acid) 1-hydroxyethylidine - 1,1-diffosphonic acid Tetrosodium salt of 1- hydroxyethylidine-1,1-dipphonic acid Ethylenediaminetra (Methylene phosphonic acid) calcium sodium salt of Ethylenediaminetra (Methylene phosphonic acid) hexamethylenediaminetra (methylene phosphonic acid) potassium salt Cation of hexamethylenediaminetetra (methylene phosphonic acid), diethylene triamine pentahydrate (Methylene phosphonic acid) sodium salt of diethylene triamine pentas (Methylene phosphonic acid) 5. Means as set out in any of the previous claims. This antifreeze contains at least one substance that can be selected from Hydroxycarboxylic acid Or polycarboxylic And the salts of these substances, ascorbic acid And isoascorbic acid Sulfonic acid copolymers - acryllic acid Polyhydroxy Silane Polyacrylamide, carbohydrate and lignosulfonate 6. Methods set out in claim 5, in which coagulation inhibitors Contains at least one substance that can be selected from Hydroxycarboxylic acid Polycarboxylic acid Acids, isoascorbic acid and polyhydroxylsilane 7. Means as set out in any of the above claims. The anticoagulant contains - at least one substance that is selectable from a phosphonic acid derivative, and - at least one substance selected from. Hydroxycarboxylic acid Or polycarboxylic acid And their salts, ascorbic acid and iso-ascorbic acid. Sulfonic acid copolymers - acryllic polyhydroxylane acid copolymer Polyacrylamide, carbohydrate and lignosulfonate 8. Methods set out in claim 7, in which coagulation inhibitors contain - at least One can be selected from aminotri (methylenphosphonic acid), pentasodium salt of aminotri (Methylene phosphonic acid) pentasodium salt of aminotri (Methylene phosphonic acid) 1- hydroxyethylenidine-1,1-diffosphonic acid Tetrosodium salt of 1- hydroxyethylidine -1,1-dipphonic acid ethylenediaminetra (Methylene phosphonic acid) ethylenediaminetra calcium sodium salt (Methylene phosphonic acid) hexamethylenediaminetra (Methylene phosphonic acid) hexamethylenediaminetra potassium salt (Methylphosphonic acid) diethylene triamine pentata (Methylene phosphonic acid) sodium salt of diet Thylleine Triamine Penta (Methylene phosphonic acid) and - citric acid 9. Methods set out in claim 8 in which the coagulation inhibitor contains aminitro ( Methylene phosphonic acid) and citric acid 1 0. Method as set out in claim 9, in which the aminitro proportion (Methylene phosphonic acid) to citric acid ranges from 1: 1 to 2: 1 1. 1. Methods set out in any of the previous claims. The coagulation accelerator contains at least one substance, selected from calcium thiocyanate salt. Triethanolamine and uryl glycol 1 2. Methods set out in claim 11 in which the coagulant consists of a mixture of calcium nitrate. Sodium thiocyanate Triethanolamine And trimethyl glycol uryl 1 3. Means as set out in any of the previous claims. Which has added water-reducing strength additives in combination with antifreeze 1 4. Methods set out in claim 13 in which the softener type softener. Is a derivative of lignosulfonate 1 5.The method, as defined in claim 2, in which the amount of concrete to be recycled ranges from 10 percent to 50 percent by weight of all concrete mix 1. 6. Means as set out in any of the previous claims. Which has added such antifreeze 1 to 4 hours after first mixing the concrete 7. Processed concrete as defined in any of the Claim Methods from Claim No. 1 to 16.