Study of the influence of the mortar fine recycled aggregate ratio and the mixing sequence on the behavior of new mortars

Neto, Gilberto Alves da Silva; Leite, Mônica Batista

doi:10.1590/s1678-86212018000200242

Cited by 9 publications

(3 citation statements)

References 15 publications

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“…Author: Gilberto and Monica [10], Material investigated: Recycled fine aggregate, Type of mortar: Hydraulic mortar cement-sand, Specimen resistance at 28 days: 13.5 MPa according to Brazilian standard NBR7215 and 14.3 MPa according to the MDE method, best result to compression at 28 days: 14.3 MPa, Percentage of mixtures: 0%, (20%-80%) and (40%-60%), Conclusion: The partial replacement of the NFA with the MFRA using the MDE sequence gave the best results. Author: Álvaro et al [13], Material investigated: Recycled non-carbonated and carbonated fine aggregates, Type of mortar: Hydraulic mortar cement-sand, Specimen resistance at 28 days: 17.5 MPa, Best result to compression at 28 days: 22.0 MPa, Percentage of mixtures: 0%, (25%-50%) and (50%-50%), Conclusion: Non-carbonated AFR does not reach the design resistance, contrary to the case with carbonates that increase it.…”

Section: Summary Of Work Related To This Researchmentioning

confidence: 99%

“…About the same RCD, Gilberto and Monica [10] investigate the influence of the relationship of the recycled fine aggregate of mortar, replacing the natural fine aggregates by fine aggregate of RCD and in turn analyze the influence on the mixing sequence on their yields, for which they use two percentages of RCD for the elaboration of the experiments according to Brazilian standards both percentages are 20% and 40%, the ratio of the mixture is 1:5 (cement and aggregate by weight). In this regard they conclude that partial replacement improves some properties of mortars with RCD as air content and the rate of water absorption by capillarity decreases, while mechanical performance increases.…”

Section: Introductionmentioning

confidence: 99%

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Analysis and Reuse of the Fine Waste of a Residual Solid Treatment Plant of a Concrete Company to Prepare a Mortar with Hydraulic Cement

Hernández-García¹,

Aranda-Jiménez²,

Sánchez-Medrano³

et al. 2021

cea

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The purpose of the investigation is the use of a residual material through its recovery in a concrete mixer located in the town of Ixtaczoquitlan, Ver., Mexico, to make a recycled hydraulic mortar of f´c 70 kg/cm 2 for masonry works, providing sustainability to the concrete mixer and to determine its compressive strength compared to a normal mortar. The methodology consists of the recovery of a sample of fine waste of concrete from the treatment plant in CAGSA (Constructoras Asociadas del Golfo S. A. de C. V.), to dry it, classify it and then make mixtures with % fine waste-% mine sand (in a percentage ratio of 10%-90%, 20%-80%, 30%-70%, 40%-60%, 50% -50% and 60% -40%), as well as, water and cement, to later compare the results against a sample control and evaluate its compressive strengths. The results of compatibility with the other materials that make up the mortar are favorable and benefit its homogeneity and fluidity. The best compression strengths are mixtures at 10% -90%, and 20% -90%. In conclusion, this residue is compatible with the materials that make up the mortar and can be used to glue partitions and masonry plaster. Within the new and relevant aspects of the study is confirmation of the use of a new mortar from fine concrete waste, mixed with andesite-type mine sand, strengthening the sustainability of the environment. It was investigated that the analyzed residues contain 90% of Calcium, which is used in the manufacture of accelerating additives for concrete, based on calcium chloride. It can be a raw material to make additives that accelerate resistance. Follow-up research is recommended regarding the slump test, fluidity, compressive strength, consistency, and water retention of this type of mortar with fine recycled aggregate.

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Section: Summary Of Work Related To This Researchmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Analysis and Reuse of the Fine Waste of a Residual Solid Treatment Plant of a Concrete Company to Prepare a Mortar with Hydraulic Cement

Hernández-García¹,

Aranda-Jiménez²,

Sánchez-Medrano³

et al. 2021

cea

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“…MRA is strongly influenced by the processing and treatment received. Notwithstanding the lack of studies on the incorporation of MRA, some authors investigated those recycled aggregates in masonry mortar [3,4,6,11,12,[24][25][26]. Only a small amount of research has evaluated the incorporation of MRA in rendering mortars.…”

Section: Introductionmentioning

confidence: 99%

Concrete-Based and Mixed Waste Aggregates in Rendering Mortars

et al. 2020

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This paper presents a study of incorporation of two types of construction and demolition waste (CDW) in rendering mortars, as aggregates at 0%, 20%, 50% and 100% (by volume). Recycled concrete aggregate (RCA) and mixed recycled aggregate (MRA) were used. The former is mainly composed of cementitious waste and the latter consists of a mixture of non-segregated wastes. The performance of the cement mortars with recycled aggregates was evaluated through an extensive experimental programme. The analysis comprised workability, mechanical strength, water absorption, shrinkage, open porosity and the evaluation of durability by permeability to water under pressure after an artificial accelerated ageing test. The results are considered positive, although as the incorporation of recycled aggregates (both MRA and RCA) increased the mechanical strength, the modulus of elasticity and bulk density decreased, which leads to the production of lighter mortars that are less susceptible to cracking. The modified mortar with 20% of MRA presented the best performance, in terms of mechanical behaviour.

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Effect of different fine recycled aggregates and superplasticizer on microconcretes’ performance

et al. 2022

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Study of the influence of the mortar fine recycled aggregate ratio and the mixing sequence on the behavior of new mortars

Cited by 9 publications

References 15 publications

Analysis and Reuse of the Fine Waste of a Residual Solid Treatment Plant of a Concrete Company to Prepare a Mortar with Hydraulic Cement

Analysis and Reuse of the Fine Waste of a Residual Solid Treatment Plant of a Concrete Company to Prepare a Mortar with Hydraulic Cement

Concrete-Based and Mixed Waste Aggregates in Rendering Mortars

Effect of different fine recycled aggregates and superplasticizer on microconcretes’ performance

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