Working Mechanism of Superplasticizer in Cement Paste with Fluoride Ion

Matsuzawa, Kazuki; Atarashi, Daiki; Miyauchi, Mutsumi; Sakai, Etsuo

doi:10.3151/jact.13.305

Cited by 4 publications

(1 citation statement)

References 6 publications

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“…The relationship between the structure and performance of PCE is determined by its working mechanism. Recent years, many researches on the working mechanisms of PCE have been carried out, however, working mechanisms of PCE can hardly be confirmed with certainty at present. The effect of chemical structure of PCE on the dispersion effectiveness is still not sure, and the reason may be that the structure of PCE polymers is complex and changeable.…”

Section: Methodsmentioning

confidence: 97%

Synthesis of a Novel Polycarboxylate Superplasticizer with Hyperbranched Structure

Zhao

Qiang

et al. 2018

ChemistrySelect

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It is well established that the performance of super-plasticizer (PCE) is mostly determined by its molecular structure. This research tends to combine PCE with hyperbranched polymer and design PCE molecule structure, aiming to enhance the water-reducing performance of PCE. Here, a novel PCE with hyperbranched molecular structure (HBPCE) was synthesized through two steps. With diallylamine, methyl propenoate and trihydroxymethylpropane as raw material, firstly, a hyperbranched monomer B was successfully synthesized. Then through free radical polymerization of methylallylpoly oxygenethene ether 2400 (HPEG 2400), propenoic acid (AA) and the monomer B in aqueous solution, the final product HBPCE was obtained. 1 H nuclear magnetic resonance (1H NMR) and infrared spectroscopy (IR) measurements were used for structural characterization, and gel chromatography was used to measure the molecular weight distribution of HBPCE. In addition, performances of HBPCE in cement paste were investigated. It is concluded that HBPCE has a good dispersing effect on cement paste and the water reduction ratio is up to 38.6%.Since came out in the 1980s, polycarboxylate superplasticizers (PCE) have been increasingly used in cement and concrete industry, such as buildings, bridges and dams fields. [1][2][3] Traditional PCE polymers are composed of polyethylene main chain, poly (ethylene glycol) branch chain and carboxylic side groups, [4][5][6][7][8] and it's convenient to achieve diverse functions and specially solve some problems in concrete engineering because their chemical structure has the potential to be modified. [9][10][11] As an important type of concrete admixture, the main function of superplasticizers is to increase the dispersion of cement paste, [12,13] leading to a low water-to-cement ratio (w/c) and high strength concrete. Compared with other water reducing agents, PCE exhibits excellent water-reducing performance, outstanding slump retention ability, low dosage and wide range of adaptability. [14][15][16][17][18][19][20] More importantly, PCE's performances are able to get breakthrough by means of adjusting and optimizing their molecular structure.The relationship between the structure and performance of PCE is determined by its working mechanism. Recent years, many researches on the working mechanisms of PCE have been carried out, [21][22][23] however, working mechanisms of PCE can hardly be confirmed with certainty at present. The effect of chemical structure of PCE on the dispersion effectiveness is still not sure, and the reason may be that the structure of PCE polymers is complex and changeable. Even so, it is certain that the mechanism behind the dispersion effectiveness of PCE is based on steric hindrance between cement particles as well as electrostatic repulsion forces. [24] Hyperbranched polymer, a kind of highly branched polymer in macromolecule field, has attracted considerable attention because of its remarkable properties, such as high solubility, low viscosity, multifunction, approximately globular three-dime...

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Section: Methodsmentioning

confidence: 97%

Synthesis of a Novel Polycarboxylate Superplasticizer with Hyperbranched Structure

Zhao

Qiang

et al. 2018

ChemistrySelect

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Interactions between fluoride ions and cement paste containing superplasticizer

Matsuzawa

Atarashi

Miyauchi

et al. 2017

Cement and Concrete Research

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Relationship between Fluidity of Cement Paste with Fluoride Ion and Type of Superplasticizer

Matsuzawa

Miyauchi

Sakai

2018

ACT

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Fluoride ions decrease the fluidity of cement paste containing superplasticizer. This paper discusses the fluidity decrease from the influence of fluoride on the solid and liquid phases in cement paste, and investigates the difference between allylether-type and methacrylate-type polycarboxylate-based superplasticizers in cement paste containing fluoride ions. Regarding the solid phase, addition of fluoride ions generates fine particles, resulting in adsorption of superplasticizer on the fine particles. Regarding the liquid phase, addition of fluoride ions decreased Ca 2+ concentration and increased SO 4 2concentration; i.e., the adsorption hindrance. Allylether-type superplasticizers preferentially adsorb on the fine particles even with the adsorption hindrance; i.e., they are susceptible to the preferential adsorption. Methacrylate-type superplasticizers were less susceptible, but adsorption was hindered by the adsorption hindrance. When water-cement ratio increased, Ca 2+ concentration increased and SO 4 2was diluted, resulting in weak adsorption hindrance. Because of these concentration changes, methacrylate-type superplasticizers showed the preferential adsorption at high watercement ratio.

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Working Mechanism of Superplasticizer in Cement Paste with Fluoride Ion

Cited by 4 publications

References 6 publications

Synthesis of a Novel Polycarboxylate Superplasticizer with Hyperbranched Structure

Synthesis of a Novel Polycarboxylate Superplasticizer with Hyperbranched Structure

Interactions between fluoride ions and cement paste containing superplasticizer

Relationship between Fluidity of Cement Paste with Fluoride Ion and Type of Superplasticizer

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