Influence of Two Polymer-Based Superplasticizers (Poly-naphthalene Sulfonate, PNS, and Lignosulfonate, LS) on Compressive and Flexural Strength, Freeze-Thaw, and Sulphate Attack Resistance of Lime-Metakaolin Grouts

Durán, A.; González-Sánchez, J.F.; Fernández, José María Fernández; Sirera, R.; Navarro-Blasco, Í.; Álvarez, J.I.

doi:10.3390/polym10080824

Cited by 26 publications

(17 citation statements)

References 63 publications

(102 reference statements)

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“…It was shown that not all superplasticizers could improve the performance of FA geopolymer concrete: with polycarboxylic-based superplasticizers, no significant difference in the performance of FA geopolymer concrete was observed; however, by adding 2% of naphthalene sulfonate-based superplasticizer (compared to FA), the workability was improved but the compressive strength was not affected. In the present study, a lignosulfonate superplasticizer (Sika, Baar, Switzerland) was used because lignosulfonate and naphthalene sulfonate are considered the most widely used superplasticizers [ 26 ]. The used superplasticizer was a current commercial product in liquid form.…”

Section: Methodsmentioning

confidence: 99%

Geopolymer Recycled Aggregate Concrete: From Experiments to Empirical Models

Bui

Tang

2021

Materials

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Ordinary cement concrete is a popular material with numerous advantages when compared to other construction materials; however, ordinary concrete is also criticized from the public point of view due to the CO2 emission (during the cement manufacture) and the consumption of natural resources (for the aggregates). In the context of sustainable development and circular economy, the recycling of materials and the use of alternative binders which have less environmental impacts than cement are challenges for the construction sector. This paper presents a study on non-conventional concrete using recycled aggregates and alkali-activated binder. The specimens were prepared from low calcium fly ash (FA, an industrial by-product), sodium silicate solution, sodium hydroxide solution, fine aggregate from river sand, and recycled coarse aggregate. First, influences of different factors were investigated: the ratio between alkaline activated solution (AAS) and FA, and the curing temperature and the lignosulfonate superplasticizer. The interfacial transition zone of geopolymer recycled aggregate concrete (GRAC) was evaluated by microscopic analyses. Then, two empirical models, which are the modified versions of Feret’s and De Larrard’s models, respectively, for cement concretes, were investigated for the prediction of GRAC compressive strength; the parameters of these models were identified. The results showed the positive behaviour of GRAC investigated and the relevancy of the models proposed.

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Section: Methodsmentioning

confidence: 99%

Geopolymer Recycled Aggregate Concrete: From Experiments to Empirical Models

Bui

Tang

2021

Materials

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“…When using the glass microspheres as a weight-reducing filler in a hydrated lime grout composition, the viscosity of the paste must be high enough to prevent the segregation of solid particles. To provide both an increased viscosity and adequate injectability of the hydrated lime grout, superplasticiser (SP; polymeric admixture) can be incorporated into the grout mixture [ 13 , 14 ]. Subsequently, much lower water content is needed for adequate workability and injectability.…”

Section: Introductionmentioning

confidence: 99%

“…Subsequently, much lower water content is needed for adequate workability and injectability. Among three SP groups frequently used in the lime-based grouts—poly-naphthalene sulfonates (PNS), lignosulfonates (LS) and polycarboxylate ethers (PCE)—the PCE products seem to be the most efficient solution [ 1 , 13 ].…”

Section: Introductionmentioning

confidence: 99%

Effect of Ultralight Filler on the Properties of Hydrated Lime Injection Grout for the Consolidation of Detached Historic Decorative Plasters

Padovnik

Bokan-Bosiljkov

2020

Materials

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Injection-grout density is an important parameter when its additional weight leads to consolidated decorative plasters becoming damaged. This is especially evident in larger detached areas. In this study, thin-walled soda–lime–borosilicate glass microspheres were used as a density-reducing constituent in hydrated lime grout mixtures. The normal density grout composition—one volume part hydrated lime and three volume parts inert limestone filler with 0.5% of the polycarboxylate ether-based superplasticiser—was modified with partial substitution of the limestone filler with lightweight glass microspheres. The following volumetric proportions between limestone filler and glass microspheres were used: 100%:0%, 67%:33%, 50%:50%, 33%:67%, and 0%:100%. With the increase of the glass microspheres’ volume, the density of the grout is gradually reduced. Furthermore, there is a decrease in the stability and injectability of fresh grout. In its hardened state, the grout’s strength again reduces gradually, but there is no significant change in the grout’s water absorption and water-vapour resistance. The resistance of the grout to freezing–thawing and heating–cooling cycles using distilled water or salt solution is highly improved when the microspheres are present.

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“…Many research projects on zeta potential measurements have been conducted to investigate the working mechanism of superplasticizers in cement pastes. The zeta potential test allows to quantify the electrostatic repulsion caused by adsorbed superplasticizers (Duran et al, 2018). Generally, a high (negative or positive) zeta potential value indicates high electrostatic repulsion between particles (Duran et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

“…The zeta potential test allows to quantify the electrostatic repulsion caused by adsorbed superplasticizers (Duran et al, 2018). Generally, a high (negative or positive) zeta potential value indicates high electrostatic repulsion between particles (Duran et al, 2018). The physical characteristics and chemical composition of fly ash are very different from those of cement.…”

Section: Introductionmentioning

confidence: 99%

Effect of electrostatic repulsion induced by superplasticizers on the flow behaviour of fly ash pastes

Wang¹,

Kayali²,

Liow³

2019

Sustainable Construction Materials and Technologies (SCMT)

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Effect of superplasticizers on fly ash pastes was evaluated by consistency tests (for lower water content pastes) and mini-slump tests (for higher water content pastes). Results indicate that only the polycarboxylate superplasticizers (PCEs) largely improved the flowability of fly ash pastes. Zeta potential measurements were conducted to explain the influence of electrostatic repulsion on flow behaviours of pastes with different superplasticizers. In fly ash pastes, Lignosulfonates (LS) and Polynaphthalene superplasticisers (PNS) depressed the zeta potential to more negative values, while the PCEs increased the zeta potential to less negative values. The more negative zeta potential represents higher electrostatic repulsion between particles. However, the workability results revealed that PCEs had better dispersing ability than PNS and LS. It was deduced that the steric hindrance may be the dominating mechanism for the better dispersing noticed with fly ash pastes, while the electrostatic repulsion may have no impact on dispersing of these pastes.

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Influence of Two Polymer-Based Superplasticizers (Poly-naphthalene Sulfonate, PNS, and Lignosulfonate, LS) on Compressive and Flexural Strength, Freeze-Thaw, and Sulphate Attack Resistance of Lime-Metakaolin Grouts

Cited by 26 publications

References 63 publications

Geopolymer Recycled Aggregate Concrete: From Experiments to Empirical Models

Geopolymer Recycled Aggregate Concrete: From Experiments to Empirical Models

Effect of Ultralight Filler on the Properties of Hydrated Lime Injection Grout for the Consolidation of Detached Historic Decorative Plasters

Effect of electrostatic repulsion induced by superplasticizers on the flow behaviour of fly ash pastes

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