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Method for catalytically synthesizing polycarboxylate superplasticizer by magnesium oxide, aluminum oxide or copper oxide

A technology for synthesizing polycarboxylic acid and alumina, applied in the field of preparation of water reducing agent, can solve the problems of reducing product market competitiveness, increasing production cost, increasing energy consumption, etc.

Pending Publication Date: 2021-09-17
SOUTHWEAT UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

In the process of free radical polymerization to prepare polycarboxylate superplasticizers, the activity of polyether macromonomers is much lower than that of small molecular unsaturated carboxylic acid monomers; Copolymerization can only prolong the dropping time of small molecular monomers, so the preparation time of polycarboxylate water reducer is generally more than 3 hours; use heating method to synthesize polycarboxylate water reducer, the polymerization reaction temperature is usually 40~60℃ , Higher temperature increases energy consumption and production cost, thereby reducing the market competitiveness of the product, and the dispersion performance and slump performance of the mixed product also have deficiencies.

Method used

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  • Method for catalytically synthesizing polycarboxylate superplasticizer by magnesium oxide, aluminum oxide or copper oxide
  • Method for catalytically synthesizing polycarboxylate superplasticizer by magnesium oxide, aluminum oxide or copper oxide
  • Method for catalytically synthesizing polycarboxylate superplasticizer by magnesium oxide, aluminum oxide or copper oxide

Examples

Experimental program
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Effect test

Embodiment 1

[0053] A method for synthesizing a polycarboxylate water-reducer catalyzed by magnesium oxide, the steps are: prepare A liquid (weigh 3.6064 g of small monomer acrylic acid and 14.3838 g of distilled water) and B liquid (0.0345 g of ascorbic acid, 0.3066 g of thioglycolic acid and distilled water) respectively 20.8792g) stand-by, add macromonomer diethylene glycol monovinyl ether (abbreviated as EPEG, the same hereinafter) 36.0242g and distilled water 15.0135g in the there-necked flask with thermometer, at room temperature, gradually cool down and stir to dissolve, When the temperature is controlled to 2°C and the macromonomer is completely dissolved, add 0.01g of magnesium oxide and 5g of water, mix and stir for 10 minutes, then add 0.25g of hydrogen peroxide and 0.5g of water, mix well, and use a constant pressure dropping funnel to drop at a constant speed at the same time Add liquid A (dropped in 45 minutes) and liquid B (dropped in 70 minutes), the holding time is 0.5h, an...

Embodiment 2

[0055] A method for synthesizing a polycarboxylate water reducer by magnesium oxide catalysis, the steps are: prepare A liquid (weigh 3.4064 g of small monomer acrylic acid and 15.3838 g of distilled water) and B liquid (0.0335 g of ascorbic acid, 0.3566 g of thioglycolic acid and distilled water) respectively 18.8792g) for use, add 35.9986g of macromonomer (EPEG) and 16.0135g of distilled water into a three-necked flask with a thermometer, at room temperature, gradually cool down and stir to dissolve, until the temperature is controlled to 2°C and the macromonomer is completely dissolved , add 0.015g magnesium oxide and 5g water, mix and stir for 15min, then add 0.23g hydrogen peroxide and 0.5g water, after mixing evenly, use the constant pressure dropping funnel to drop A liquid (48min finished) and B liquid ( 72min), the holding time is 0.5h, and the reacted material is allowed to stand at room temperature to obtain a polycarboxylate superplasticizer.

Embodiment 3

[0057] A method for synthesizing a polycarboxylate water-reducer catalyzed by magnesium oxide, the steps are: prepare A liquid (weigh 3.5066 g of small monomer acrylic acid and 16.3278 g of distilled water) and B liquid (0.0338 g of ascorbic acid, 0.3316 g of thioglycolic acid and distilled water) respectively 21.7772g) for use, add 36.1248g of macromonomer (EPEG) and 16.0135g of distilled water into a three-necked flask with a thermometer, at room temperature, gradually cool down and stir to dissolve, until the temperature is controlled to 2°C and the macromonomer is completely dissolved , add 0.017g magnesium oxide and 5g water, mix and stir for 10min, then add 0.245g hydrogen peroxide and 0.5g water, after mixing evenly, use a constant pressure dropping funnel to drop A liquid (45min finished) and B liquid ( 75min), the holding time is 0.5h, and the reacted material is allowed to stand at room temperature to obtain a polycarboxylate superplasticizer.

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Abstract

The invention discloses a method for catalytically synthesizing a polycarboxylate superplasticizer by magnesium oxide, aluminum oxide or copper oxide, which is characterized by comprising the following steps of: taking raw materials of a macromonomer, a micromonomer, a chain transfer agent, a reducing agent, an oxidizing agent, a catalyst and water, mixing the micromonomer with the water to prepare a solution A, mixing the reducing agent, the chain transfer agent and the water to prepare a solution B, wherein the macromonomer is Diethylene Glycol Monovinyl Ether, the catalyst is magnesium oxide, aluminum oxide or copper oxide; adding the macromonomer and water into a reactor, controlling the temperature to be 2-28 DEG C, adding the catalyst and the oxidizing agent, adding the solution A and the solution B dropwise, controlling the total time of dropwise adding and heat preservation reaction at the temperature of 2-28 DEG C to be 1-2 h, and preparing the polycarboxylate superplasticizer . The prepared polycarboxylate superplasticizer is particularly suitable for concrete preparation, has the characteristics of high dispersity, good slump retaining performance, high compressive strength, good durability and the like, and is high in practicability.

Description

technical field [0001] The invention belongs to the preparation of water reducers, and relates to a method for synthesizing polycarboxylate water reducers by catalyzing magnesium oxide, aluminum oxide or copper oxide. The polycarboxylate water reducer prepared by the invention is suitable for concrete preparation. Background technique [0002] The development of modern concrete admixture technology is the key to the development of modern concrete technology and plays a decisive role. Concrete admixture is an essential component in modern concrete except cement, sand, stone, water, and admixtures, especially the third-generation polycarboxylate high-performance admixture, which accounts for 10% of the amount of concrete admixture used. About 80%, it is one of the important technical ways to reduce the amount of cement, improve the utilization rate of industrial waste residue, and realize the durability and high performance of concrete. Polycarboxylate high-efficiency water ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08F283/06C08F220/06C08F4/06C08F4/12C08F4/10C04B24/26C04B103/30
CPCC08F283/065C08F4/06C08F4/12C08F4/10C04B24/2605C04B2103/302C08F220/06
Inventor 刘才林张恒通王浚任先艳杨海君杨莉
Owner SOUTHWEAT UNIV OF SCI & TECH
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