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Method for Synthesizing Cationic Polycarboxylate Water Reducer Based on Hoffmann Rearrangement Reaction

A Hoffman rearrangement and cationic technology, which is applied in the field of cationic side chain polycarboxylate superplasticizers, can solve problems such as limiting the application effect of concrete, achieve improved application performance, broad application prospects, and a mild and stable polymerization process Effect

Active Publication Date: 2018-03-16
中铁一局集团工业贸易有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the products obtained by the above synthetic methods all have certain deficiencies. In the field of concrete water reducers, researchers have failed to modify the isocyanate through the amide structure and initiate the polymerization of cationic side chains and polymers in the system with high-valent cerium salts. The method of separately reacting the ether side chains to obtain two kinds of macromonomers realizes the composite functional polycarboxylate superplasticizer integrating water reduction, slump retention, dispersion, mud resistance and other application properties.
The method of modifying isocyanate only through Hoffman rearrangement reaction, or synthesizing a single functional side chain, or introducing a cationic block into the main chain greatly limits its application effect in concrete. It has been proved by facts that the synthesis of complex functional group molecules with multiple functions The structure can significantly improve the application performance of the polymer
Therefore, this requires a fundamental innovation in the molecular structure of the synthesized polycarboxylate superplasticizer. It does not stick to the traditional synthesis method, and innovatively uses amide-modified isocyanate, high-valent cerium salt to initiate long chain polycations, and isocyanate. Reaction with polycation side chains and polyether side chains to obtain a variety of synthetic routes and characteristics of macromonomers, which not only has the composite performance of water-reducing and slump-resistant mud, but also facilitates industrial application and production promotion. Regarding this aspect The work has not been reported at home and abroad

Method used

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  • Method for Synthesizing Cationic Polycarboxylate Water Reducer Based on Hoffmann Rearrangement Reaction
  • Method for Synthesizing Cationic Polycarboxylate Water Reducer Based on Hoffmann Rearrangement Reaction
  • Method for Synthesizing Cationic Polycarboxylate Water Reducer Based on Hoffmann Rearrangement Reaction

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Experimental program
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Effect test

Embodiment 1

[0029] First, add 1.7g of methacrylamide, 2.98g of sodium hypochlorite and 0.8g of sodium hydroxide to the reactor in turn, stir for 8 minutes, and react at a constant temperature of 45°C for 1.5 hours to obtain unsaturated isocyanate; Acryloyloxyethyl dimethyl butyl ammonium bromide and 0.3g of isobutanol were added to another reactor, and then 591.17g of water was added to prepare an aqueous solution with a mass concentration of 2%, and the reactor was filled with nitrogen repeatedly 4 times to remove Seal after 20 minutes of oxygenation, add 2.19g of cerium ammonium nitrate, stir for 18 minutes until it is mixed evenly, continue to heat up to 60°C for polymerization reaction, and react for 6 hours to obtain an aqueous solution of hydroxyl-terminated cation side chains; The chain aqueous solution was vacuumed to remove the water in the system, and the obtained product unsaturated isocyanate, 21.6g polyethylene glycol monomethyl ether (molecular weight = 1800), and 3.37g water...

Embodiment 2

[0031] After the polycarboxylate superplasticizer solution with a mass fraction of 40% obtained in Example 1 was stored at 6° C. for 30 days, its implementation effect was measured.

Embodiment 3

[0033] First, add 1.7g of methacrylamide, 3.28g of sodium hypochlorite and 0.8g of sodium hydroxide to the reactor in sequence, stir for 10 minutes, and react at a constant temperature of 35°C for 2.5 hours to obtain unsaturated isocyanate; Methyl allyl ammonium chloride and 0.36g isopropanol are added in another reactor, then add 706.08g water and be mixed with the aqueous solution that mass concentration is 8%, the reactor is filled with nitrogen repeatedly 3 times and deoxygenates after sealing for 30 minutes, Add 1.64g of ammonium cerium nitrate, stir for 10 minutes until it is evenly mixed, continue to heat up to 50°C for polymerization reaction, and react for 8 hours to obtain an aqueous solution of hydroxyl-terminated cation side chains; vacuumize the obtained aqueous solution of hydroxyl-terminated cations and side chains to remove the system Inner water, add the obtained product unsaturated isocyanate, 28g polyethylene glycol monomethyl ether (molecular weight = 2000),...

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Abstract

The invention discloses a method for synthesizing a cationic polycarboxylate superplasticizer based on a Hoffmann rearrangement reaction, and belongs to the field of water reducing agents. Unsaturated amide monomers are modified into unsaturated isocyanate, meanwhile, an oxidation-reduction initiating system is formed by high-valence cerate and alcohol to initiate polymeric unsaturated cation quaternary ammonium salt monomers, a hydroxyl-terminated cation side chain is obtained, then isocyanate reacts with the hydroxyl-terminated cation side chain and polyethylene glycol monomethyl ether to obtain cationic macromonomers and polyether macromonomers, then the cationic macromonomers, the polyether macromonomers and small carboxylic acid monomers are subjected to free radical copolymerization, and the cationic polycarboxylate superplasticizer is obtained. Based on the Hoffmann rearrangement reaction principle, unsaturated amide modified amide reacts with the cation side chain and a polyether side chain, the macromonomers with different structures and different functions are designed and synthesized, and the novel pectinated polycarboxylate superplasticizer with polycarboxylic acid as a main chain and cations and polyether as the side chain is obtained finally. The synthesis process is continuous and easy to control, and multiple effects of excellent water reduction, collapse protection, clay resistance and the like are shown.

Description

technical field [0001] The present invention relates to the technical field of a cationic side chain type polycarboxylate water reducer for concrete, in particular to a cationic side chain polymerized by Hoffman rearrangement reaction of unsaturated amide monomers first to modify isocyanate groups And react to generate a macromonomer and then copolymerize with a small carboxylic acid monomer to form a specific preparation method of a cationic polycarboxylate water reducer. Background technique [0002] Polycarboxylate superplasticizer is an important part of concrete, which can improve the workability, strength and durability of concrete. It is a high-performance superplasticizer at the forefront of technology in the world. The characteristics of high water-reducing enhancement rate, good adaptability of cement, and diversity of molecular design have become the research hotspots at home and abroad. However, concrete raw materials have an important impact on the application ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C08F283/00C08F222/02C08F220/06C08G81/02C08F120/34C08F126/02C08F4/40C04B24/26C04B103/30
CPCC04B24/2658C04B2103/302C08F4/40C08F120/34C08F126/02C08F283/00C08G81/025C08F222/02C08F220/06
Inventor 刘晓管佳男王子明任笑薇王亚丽王剑锋
Owner 中铁一局集团工业贸易有限公司
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