Rheological and the Fresh State Properties of Alkali-Activated Mortars by Blast Furnace Slag

Marvila, Markssuel Teixeira; Azevedo, Afonso Rangel Garcez de; Matos, Paulo Ricardo de; Monteiro, Sérgio Neves; Vieira, Carlos Maurício Fontes

doi:10.3390/ma14082069

Cited by 94 publications

(20 citation statements)

References 67 publications

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“…This is also related to the fact that the OPC industry is highly polluting. Alkali-activated precursors and cement are considered alternative and eco-friendly binders [ 232 , 236 , 237 ], usually resulting in concretes with lower CO 2 emissions than OPC-based concrete (around 10%, according to [ 238 ]). The accurate determination of the environmental impact associated with these binders—and consequently compare it with those associated with OPC—would require a detailed analysis which will not be addressed in this paper; nonetheless, further details can be found in [ 239 , 240 , 241 ].…”

Section: Hpc and Uhpc Produced With Alkali-activated Cementmentioning

confidence: 99%

“…Regarding calcium-rich precursors, the main materials used are steel residues or by-products, mainly blast furnace slag. The alkaline activation of these materials results in products similar to those obtained during the hydration of OPC such as C-S-H, but with the potential to be even stronger [ 236 , 274 ]. Regarding calcium-rich precursors, the main materials used are steel residues or by-products, mainly blast furnace slag.…”

Section: Hpc and Uhpc Produced With Alkali-activated Cementmentioning

confidence: 99%

“…The main disadvantages of the application of blast furnace slag as a precursor in alkali-activated cement are related to the loss of workability in the material in the fresh state. Marvila et al (2021) [ 236 ] evaluated the rheological aspects of HPC produced with alkali cement activated on the basis of blast furnace slag and sodium hydroxide solution. The authors observed that in smaller amounts of sodium, up to 7.5% Na 2 O, the obtained material behaved rheologically similar to materials based on OPC.…”

Section: Hpc and Uhpc Produced With Alkali-activated Cementmentioning

confidence: 99%

“… Scanning electron microscopy illustrating tobermorite obtained by activating alkali cement activated on a blast furnace slag base [ 236 ]. …”

Section: Figurementioning

confidence: 99%

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Materials for Production of High and Ultra-High Performance Concrete: Review and Perspective of Possible Novel Materials

Marvila¹,

Azevedo²,

Matos

et al. 2021

Materials

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103

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This review article proposes the identification and basic concepts of materials that might be used for the production of high-performance concrete (HPC) and ultra-high-performance concrete (UHPC). Although other reviews have addressed this topic, the present work differs by presenting relevant aspects on possible materials applied in the production of HPC and UHPC. The main innovation of this review article is to identify the perspectives for new materials that can be considered in the production of novel special concretes. After consulting different bibliographic databases, some information related to ordinary Portland cement (OPC), mineral additions, aggregates, and chemical additives used for the production of HPC and UHPC were highlighted. Relevant information on the application of synthetic and natural fibers is also highlighted in association with a cement matrix of HPC and UHPC, forming composites with properties superior to conventional concrete used in civil construction. The article also presents some relevant characteristics for the application of HPC and UHPC produced with alkali-activated cement, an alternative binder to OPC produced through the reaction between two essential components: precursors and activators. Some information about the main types of precursors, subdivided into materials rich in aluminosilicates and rich in calcium, were also highlighted. Finally, suggestions for future work related to the application of HPC and UHPC are highlighted, guiding future research on this topic.

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Section: Hpc and Uhpc Produced With Alkali-activated Cementmentioning

confidence: 99%

Section: Hpc and Uhpc Produced With Alkali-activated Cementmentioning

confidence: 99%

Section: Hpc and Uhpc Produced With Alkali-activated Cementmentioning

confidence: 99%

“… Scanning electron microscopy illustrating tobermorite obtained by activating alkali cement activated on a blast furnace slag base [ 236 ]. …”

Section: Figurementioning

confidence: 99%

See 2 more Smart Citations

Materials for Production of High and Ultra-High Performance Concrete: Review and Perspective of Possible Novel Materials

Marvila¹,

Azevedo²,

Matos

et al. 2021

Materials

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103

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“…When the load is continued, the fiber breaks, and then some connections in the fracture area are broken almost simultaneously. At this stage, the fiber breaks into two fragments, in addition to a void in the rupture region (break gap) [ 107 ]. With these connections breaking close to the fracture region, the connections closest to these end up being maintained, even if they remain tensioned, while the connection lines further away from the fiber rupture are not much affected by the applied effort, maintaining the original condition of regularity and balance [ 108 ].…”

Section: Mechanical Performance Of Fiber Reinforced Geopolymer Compositesmentioning

confidence: 99%

Natural Fibers as an Alternative to Synthetic Fibers in Reinforcement of Geopolymer Matrices: A Comparative Review

Azevedo¹,

Cruz²,

Marvila³

et al. 2021

Polymers

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102

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Geopolymer materials have been gaining ground in the civil construction sector not only for having superior physical properties when compared to conventional cement, but also for being less harmful to the environment, since the synthesis of the geopolymer does not release toxic gases or require high energy costs. On the other hand, geopolymer materials like cementitious matrices have low flexural strength and have fragile breakage. To overcome these deficiencies, the insertion of fibers in geopolymeric matrices has been evaluated as a solution. Although most research on this practice focuses on the use of synthetic fibers, the use of natural fibers has been growing and brings as an advantage the possibility of producing an even more ecological material, satisfying the need to create eco-friendly materials that exists today in society. Thus, this paper aimed to, through the evaluation of research available in the literature, understand the behavior of fibers in geopolymer matrices, identify similarities and differences between the performance of geopolymer composites reinforced with natural and synthetic fibers and, understanding that it is possible, point out ways to optimize the performance of these composites.

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Characterization of Blast Furnace Slag for Preparing Activated Alkali Cements

Marvila¹,

Azevedo²,

Zanelato³

et al. 2022

Characterization of Minerals, Metals, and Materials 2022

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Rheological and the Fresh State Properties of Alkali-Activated Mortars by Blast Furnace Slag

Cited by 94 publications

References 67 publications

Materials for Production of High and Ultra-High Performance Concrete: Review and Perspective of Possible Novel Materials

Materials for Production of High and Ultra-High Performance Concrete: Review and Perspective of Possible Novel Materials

Natural Fibers as an Alternative to Synthetic Fibers in Reinforcement of Geopolymer Matrices: A Comparative Review

Characterization of Blast Furnace Slag for Preparing Activated Alkali Cements

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