Partial replacement of cement with granular marble residue: effects on the properties of cement pastes and reduction of CO2 emission

T, Santos; Gonçalves, Jardel Pereira; Andrade, Heloysa Martins Carvalho

doi:10.1007/s42452-020-03371-0

Cited by 11 publications

(5 citation statements)

References 29 publications

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“…A large particle size provides structural support, while smaller particles can enter interior pores to enhance hydration. The results suggest that the proposed mix designs incorporating different percentages of marble powder are suitable for various concrete applications, minimizing the high dosage of cement (Santos et al, 2020;Wang et al, 2022). Concrete made with waste glass sludge had a higher compressive strength than that made with marble powder, as shown in Figure 3B.…”

Section: Compressive Strength Of Marble Powder Waste Glass Sludge And...mentioning

confidence: 88%

Concrete matrix based on marble powder, waste glass sludge, and crumb rubber: pathways towards sustainable concrete

Akbar,

Hussain,

Imran

et al. 2024

Front. Mater.

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This research aims to develop a sustainable concrete matrix using industrial waste materials, including marble powder, waste glass sludge (WGS), and crumb rubber from tire waste. The mechanical properties of the newly designed concrete mix, such as compressive strength, split tensile strength, and flexural strength, were evaluated. The results showed improvements in compressive strength by 5%, split tensile strength by 4%, and flexural strength by 5%. Besides, a statistical two-way analysis of variance (ANOVA) with a threshold of less than 0.001 was used, and the residual error was found to be low (4.09), both in terms of lack of fit and pure error. This research proposes a new model to assess the sustainable performance of the newly developed concrete matrix. Data was collected from 21 academic professors and structural engineers, and hypotheses were tested using partial least squares structural equation modelling. The Design Expert software was deployed to check its hypothesis, and the Smart PLS software was deployed to measure data validation. The findings demonstrate that a sustainable concrete matrix positively influences sustainable performance. The proposed model offers valuable insights for decision-makers and engineering managers, highlighting the benefits of adopting sustainable materials to enhance overall sustainability performance. Incorporating marble powder, waste glass sludge, and crumb rubber was beneficial in terms of mechanical strengths and microstructure. Overall, this research contributes to the goal of reducing CO2 emissions in the cement industry and provides practical recommendations for incorporating sustainable materials in construction practices.

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Section: Compressive Strength Of Marble Powder Waste Glass Sludge And...mentioning

confidence: 88%

Concrete matrix based on marble powder, waste glass sludge, and crumb rubber: pathways towards sustainable concrete

Akbar,

Hussain,

Imran

et al. 2024

Front. Mater.

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“…Portland cement (Camilleri et al, 2012;Chintalapudi and Pannem, 2020;Llanes et al, 2018;Maheswaran et al, 2016;Oliveira et al, 2020;Sanjuán et al, 2015;Santos et al, 2020;Silva et al, 2023;Singhal et al, 2008;Souza et al, 2017;Taefi et al, 2010;Thapa et al, 2019;Trapote-Barreira et al, 2016;Trusilewicz et al, 2019;Vescovi et al, 2023;Wattanasiriwech et al, 2009;Yang et al, 2014;Zhu et al, 2015), tuff from various references (Al-Harahsheh et al, 2014;Al-Zboon et al, 2016;Ciccioli et al, 2010;Khataee et al, 2018;Kundal et al, 2022;Yu et al, 2023)…”

Section: Reaction Kinetics and Strengthening Mechanismsmentioning

confidence: 99%

Factors Influencing the Mechanical Properties and Reaction Kinetics of Wasted Ultrabasic Tuff Used as a Binder

Zhang,

Hou,

Cui

et al. 2024

Preprint

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Ultrabasic tuff powder, a solid waste generated from manufactured sand and aggregate production without calcination treatment, contains less than 45% SiO2 stabilized in aluminosilicate. Due to its high crystallinity, few studies have explored its viability as a raw material for binder preparation. Using an orthogonal experimental design, this study revealed the impacts of three key factors on the mechanical properties of ultrabasic tuff-based binder (UTB): the mass ratio of silica to alumina (S/A), the mass ratio of sodium oxide (Na2O) to binders (N/B), and curing temperature (T). To elucidate the reaction kinetics, an array of analytical techniques, including Inductively Coupled Plasma-Optical Emission Spectrometer (ICP-OES), X-ray Diffraction (XRD), X-ray Fluorescence (XRF), Fourier Transform Infrared Spectroscopy (FTIR), Scanning Electron Microscopy (SEM), and Energy-dispersive X-ray spectroscopy (EDS), were employed. The results indicate that an increase in S/A and T enhanced the dissolution degree of precursors, along with improved compressive strengths. Conversely, an increase in N/B led to a minimal reduction in the dissolution degree, with compressive strengths initially rising and then declining. The optimal combination of three factors was S/A = 5, N/B = 0.10, and T = 80°C, resulting in a maximum compressive strength exceeding 80.0 MPa. The ratio of dissolved silicon (Si) to aluminum (Al) was approximately 50:1, signifying a composition profoundly different from traditional alkali-activated binders. Additionally, the proportions of dissolved silica (SiO2) and alumina (Al2O3) were determined to be 46.38% and 4.48% of the total, respectively, suggesting that UTB comprised both reactive and unreactive components. The reactive portion, consisting of quartz, calcite, chlorite, and silica fume, forms an amorphous (N, C)-A-S-H gel, connecting with the unreactive part.

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“…Tatiane Santos et al, (2020) The effects of using granular marble scraps instead of CP V Cement concrete were investigated. The raw materials and pastes' physical-chemical properties were described using XRD, XRF, TG/DTA, SEM, and grain -size analyses.…”

Section: Literature Reviewmentioning

confidence: 99%

“…Portland cement is the component that is used in the production of concrete at the highest frequency. As a direct result of this, the cost of cement and other raw materials is going up in order to keep up with the rising demand for these goods, which can be observed in the building and construction sector [1][2][3]. The use of alternative building materials is strongly suggested as a potential solution to these problems in the construction industry.…”

Section: Introductionmentioning

confidence: 99%

Development of Cement Concrete Using Granite Dust and Fly Ash as Partial Substitutes

Kumar¹

2022

MSEA

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In this scenario, we observe how the strength of the concrete changes when the standard cement is switched out for granite powder and fly ash as the fine aggregate. In this particular investigation, the researchers employed anything from zero to fifty percent fine aggregate and whatever quantity of cement they deemed appropriate. Concretes of grade M25 and M60 are used since there is a need to take into account either low and high strengths. At room temperature, compressive testing was carried out on cubes of fly ash-added concrete that had been aged 7, 14, 28, and 90 days respectively. After 14 and 28 days after being mixed, cylinders of fly ash-added concrete were split and evaluated for their tensile strength. During a cure period of 28 days submerged in water, the flexural strengths of the concrete beams were measured. We were able to evaluate the chemical solution resistance of concrete made with fly ash and quarry dust by curing samples of concrete in a variety of chemical solutions and then determining the amount of strength and weight that was lost as a result. The high performance concrete mix that was created was made using the M60 grade of concrete. The major focus of this investigation is on the characteristics and performance of concrete in which the cement and fine aggregate have been partly substituted by large volume fly ash (HFA) and quarry dust (QD). The strength, stiffness, and residual strength of high-performance reinforced concrete beams were investigated and tested to see how they would perform under cyclic loading circumstances in terms of the deterioration of these properties. In this investigation, the researchers used a sophisticated chloride penetration technique to concrete that was produced using a combination of fly ash and quarry dust (RCPT). Last but not least, research was conducted on the compressive, split tensile, and flexural strengths, in addition to the chloride permeability, of concrete mixes that included varied amounts of fly ash and quarry dust. The findings demonstrate that reducing waste by recycling stone dust to pavement is a feasible alternative.

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Partial replacement of cement with granular marble residue: effects on the properties of cement pastes and reduction of CO2 emission

Cited by 11 publications

References 29 publications

Concrete matrix based on marble powder, waste glass sludge, and crumb rubber: pathways towards sustainable concrete

Concrete matrix based on marble powder, waste glass sludge, and crumb rubber: pathways towards sustainable concrete

Factors Influencing the Mechanical Properties and Reaction Kinetics of Wasted Ultrabasic Tuff Used as a Binder

Development of Cement Concrete Using Granite Dust and Fly Ash as Partial Substitutes

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