Cement concrete superplasticizer and method for preparing same

A technology of cement concrete and superplasticizer, applied in the field of cement concrete superplasticizer, can solve the problems of harsh reaction conditions, complex production process, long production time, etc., and achieve easy control of reaction conditions, simple synthesis process and low equipment investment little effect

Inactive Publication Date: 2008-12-31
SHENZHEN OCEANPOWER NEW MATERIALS TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] US4814014: Prepared by grafting method, but the problem is that there are a large number of non-grafted and homopolymers in the copolymer, so the product conversion rate is low, the cost is high, and the effect is poor
If the amount is too high, precipitation, dispersion and dispersion retention are not good
[0020] At home and abroad and in the literature, it is mentioned that the polymerization method for preparing polymers generally adopts a two-step method or a grafting method. The two-step method is more complicated to prepare the production process, and the reaction conditions are harsher and difficult to control, especially the preparation of the first step product. The obtained produc

Method used

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  • Cement concrete superplasticizer and method for preparing same
  • Cement concrete superplasticizer and method for preparing same
  • Cement concrete superplasticizer and method for preparing same

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0055] Add 132g of water into the reaction kettle equipped with a thermometer, agitator, feeding port, reflux condenser, and nitrogen gas inlet pipe, pass in nitrogen gas to purge for 30min, heat in a water bath to 60°C, and then add 5.5g of methacrylic acid Sodium made the primer solution. The stirring speed is 60-100 rpm. Weigh 8.4g of acrylic acid, 30.9g of methoxypolyethylene glycol acrylate (n=9) and 2.1g of vinylpyrrolidone, and then add 15g of water to form a mixed monomer solution. Weigh 3.6g of ammonium persulfate and 3.6g of sodium bisulfite, add 68g of water to make an initiator. The configured mixed monomer solution and the initiator were purged with nitrogen for 30 minutes, and were added dropwise to the reaction bottle with a feeding pump, and the dropping time was controlled at 3 hours. The adding time is controlled at 1 hour, and the temperature is raised to 95°C after dripping, and after 2 hours of heat preservation, the temperature is lowered to below 40°C,...

Embodiment 2

[0057] In a four-neck flask of a reaction kettle equipped with a thermometer, a stirrer, a dropping funnel, a reflux condenser, and a nitrogen inlet pipe, first replace the air in the bottle with nitrogen, and then add 6.5 g of sodium propylene sulfonate and 86 g of water to the bottle. A primer solution was formed and heated to 70°C in a water bath. The stirring speed is 60-100 rpm. Weigh 9.98g of methacrylic acid, 28.84g of methoxypolyoxyethylene methacrylate (n=23) and 3.3g of vinylpyrrolidone, and then add 15g of water to form a mixed monomer solution. Weigh 9.98g of methacrylic acid and 28.84g of methoxypolyoxyethylene methacrylate (n=23), add 45g of water to form a mixed monomer solution. Weigh 3.6g of ammonium persulfate and add 68g of water to make an initiator. After the configured mixed monomer solution and the initiator were purged with nitrogen for 30 minutes, they were added dropwise to the reaction flask with a feeding pump, and the dropping time was controlled...

Embodiment 3

[0059] In the reaction kettle four-necked bottle equipped with a thermometer, agitator, dropping funnel, reflux condenser, and nitrogen inlet pipe, first replace the air in the bottle with nitrogen, add 17g of water to the bottle as a base material solution, and heat it in a water bath to 80°C. The stirring speed is 60-100 rpm. Take by weighing 35.67g methoxypolyethylene glycol methacrylate (n=35), 4.97g methacrylic acid, 1.02g vinylpyrrolidone and 2.4g mercaptopropionic acid, add 163g water again and be made into containing chain transfer agent The monomer solution was mixed, and then adjusted to pH=5.0 of the mixed monomer solution with sodium bicarbonate. Weigh 3.6g of ammonium persulfate and add 68g of water to make an initiator. After the configured mixed monomer solution and initiator were purged with nitrogen for 30 minutes, they were added dropwise to the reaction bottle with a feeding pump, and the dropping time was controlled at 5 hours. After the dropping, continu...

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Abstract

The invention discloses a concrete superplasticizer and a preparation method. Based on weight proportion, 1-50% of nitrogen-containing functional monomer a, 5-50% of unsaturated carboxylic acid and the derivative b of the unsaturated carboxylic acid, 15-94% of polyoxyethylene vinyl propionate ester ene single-ether and the derivative c of the polyoxyethylene vinyl propionate ester ene single-ether, as well as 0-50% of allyl sulfonate d are mixed to prepare a mixed monomer solution; the initiator which takes up 0.5-15% of the total weight of the mixed monomer, and the chain transfer agent which takes up 0-15% of the total weight of the mixed monomer are added into the mixed monomer solution so as to prepare the concrete super plasticizer through ternary or quaternary copolymerization. Without going through analysis purification, the invention can directly obtain the product and has simple synthetic process, less equipment investment, simple operation and easily controlled reaction conditions; the obtained product has better compatibility with cement and good adaptability with other additives, and is free from segregation and bleeding phenomena; the product also has good concrete slump retentivity and high water reduction rate.

Description

technical field [0001] The invention relates to a cement concrete superplasticizer. [0002] The invention also relates to a preparation method of the cement concrete superplasticizer. Background technique [0003] Cement concrete is the most common building material, and the concrete mixture should be kept in a fluid state before casting to enhance workability and workability. However, today's concrete faces the problems of short concrete processing time and poor workability. At the same time, after long-term mixing, concrete often segregates, bleeds, and even cannot be cast. In order to solve the above problems, early concrete admixtures mostly used polymers such as lignin sulfonate, naphthalene sulfonate formaldehyde condensate NSF, melamine sulfonate formaldehyde condensate MSF, aliphatic sulfamic acid ASPF, etc. Under the premise of changing the workability of concrete, the water consumption of concrete mixing can be greatly reduced, and the strength of concrete can b...

Claims

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Application Information

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IPC IPC(8): C04B24/26C04B103/32
CPCC04B24/2652C04B24/163C04B2103/32
Inventor 刘方罗英武何唯平汤惠工
Owner SHENZHEN OCEANPOWER NEW MATERIALS TECH
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