Hydraulic Tiles Produced with Fine Aggregates and Pigments Reclaimed from Iron Ore Tailings

Fontes, Wanna Carvalho; Carvalho, José Maria Franco de; Silva, Keoma Defáveri do Carmo e; Silva, Guilherme Jorge Brigolini; Segadães, Ana M.; Peixoto, Ricardo André Fiorotti

doi:10.1007/s40831-020-00329-9

Cited by 10 publications

(4 citation statements)

References 20 publications

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“…Other characterization methods were also used by the authors, but less frequently, such as specific mass analysis (Bessa et al , 2022;Mendes et al , 2019), thermogravimetric analysis (Cechin et al , 2022;Mendes et al , 2019), inductively coupled plasma optical emission spectrometry (Lelis et al , 2022;Vilela et al , 2020), laser micro mass analysis (Mymrin et al , 2022b;Povaluk et al , 2022), density test (Fontes et al , 2021;Eugênio et al , 2021), atomic absorption spectroscopy (Mymrin et al , 2022a;Pedroso et al , 2022), pH (Eugênio et al , 2021;Pedroso et al , 2020), water absorption (Duarte et al , 2020), differential thermal analysis (Cechin et al , 2022), specific surface test (Sá et al , 2022), loss test fire (Pedroso et al , 2020), unit mass (Duarte et al , 2020), electrical conductivity (Faria, 2023), among others.…”

Section: Materials Characterization Methodsmentioning

confidence: 99%

“…Other minerals, such as muscovite, gibbsite, coesite, cristobalite and wustite, have also been identified on a smaller scale, adding diversity to the mineral composition of the RMF (Faria, 2023;Guimarães et al , 2018;Mendes et al , 2019;Sá et al . , 2022;Fontes et al , 2021).…”

Section: Mineral Composition Of Tailingsmentioning

confidence: 99%

“…Other tests, such as flexural strength (Ruy, 2022;Amaral et al , 2021;Cechin et al , 2022) and porosity (Duarte et al , 2019;Amaral et al , 2021;Mendes et al , 2019;Silva & Paiva, 2020) were also significant in the studies carried out. Different evaluations were used less frequently, reflecting a diversity in the specific objectives of the work, such as water resistance (Pedroso et al , 2022), leaching and solubility (Mymrin et al , 2021a), expansion test (Povaluk et al , 2022, coloring (Fontes et al , 2021), tensile strength (Eugênio et al , 2021), carbonation test (Bessa et al , 2022), fatigue test (Sá et al , 2022), impact resistance (Eugênio et al , 2021), modulus of rupture (Narciso et al , 2022) and flexural strength (Fontes et al , 2021).…”

Section: Figurementioning

confidence: 99%

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Application of Iron Ore Tailings From The Dam Collapse In Mariana - MG In The Development of New Construction Materials: A Systematic Review

Santos,

Morais,

Faria

et al. 2024

RGSA

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Objective: The study evaluates, through a systematic review, the possible applications of Iron Ore Tailings (IOT) from the collapse of the Fundão Dam in Mariana - MG in the production of new construction materials. Theoretical Framework: Based on concepts of systematic reviews, without analytical bias, and theories of recycling industrial waste and sustainable materials. Method: An adaptation of the Systematic Search Flow method was used, analyzing the waste preparation, characterization methods, mineral composition, materials produced and tests carried out from the selected articles. Results and Discussion: Most cases required prior IOT preparation. For characterization, the most used methods were X-ray Diffraction, Granulometric Analysis and Scanning Electron Microscopy. The IOT consisted mainly of quartz and hematite. Materials produced included concrete, mortar, blocks and bricks, plastic and ceramic composites, which were evaluated by water absorption and compressive strength tests. Research Implications: Provides insights into the application of the paper's results in the management of mining tailings and the production of sustainable materials using IOT, in addition to guiding new research. Originality/Value: The review demonstrates the feasibility of using IOT from dam collapse in the production of new construction materials and innovates by presenting graphic results, facilitating reading and understanding. The relevance is evidenced by the potential integration of results into new research, socio-environmental management strategies and sustainable development in construction.

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Section: Materials Characterization Methodsmentioning

confidence: 99%

Section: Mineral Composition Of Tailingsmentioning

confidence: 99%

Section: Figurementioning

confidence: 99%

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Application of Iron Ore Tailings From The Dam Collapse In Mariana - MG In The Development of New Construction Materials: A Systematic Review

Santos,

Morais,

Faria

et al. 2024

RGSA

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“…and aerated concrete [8][9][10]. However, the current research mainly focuses on IOT waste rock as concrete aggregate, which largely reduces the admixture of IOTs in concrete, limiting the application value of ultrafine IOTs, while powdered IOTs are more likely to cause dust and other environmental problems [11][12][13][14]. Therefore, in order to make full use of ultrafine IOTs and produce high value-added products, IOTs can be developed as supplementary cementitious materials (SCMs) for concrete, which further reduces the cost of producing both cement and concrete products, and achieves the purpose of multi-functionality between the utilisation of solid waste resources and the green production of concrete products [15][16][17].…”

Section: Introductionmentioning

confidence: 99%

Mechanical Properties and Hydration Mechanism of Iron Tailings–Cement-Based Supplementary Cementitious Materials

Hu,

Gu,

Liu

et al. 2024

Buildings

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The preparation of cement-based supplementary cementitious materials is an important method for the efficient use of iron tailings and the reduction in CO2 emissions. The aim of this study is to improve the reactivity of iron tailings by mixing them with steel slag, slag, and fly ash through orthogonal tests to solve the problem that iron tailings cannot be utilised on a large scale. The compressive strength, hydration products, and microstructure of the iron tailings–cement-based supplementary cementitious materials were investigated using ICP-OES, XRD, TG, FTIR, and SEM. The results revealed that each solid waste raw material played a distinct role in the hydration reaction. In the iron tailings–cement-based supplementary cementitious materials system, steel slag provided Ca2+, OH−, and Si4+ ions, slag provided Ca2+ and Al3+ ions, fly ash contributed a significant amount of Ca2+ and Al3+ ions, and iron tailings offered more nucleation sites and some Si4+ ions for the hydration products. Moreover, there was a synergistic effect among these four materials, promoting the formation of hydration products such as ettringite, C-(A)-S-H gels, and others. When the proportion of IOTs:SS:FA:SL was 9:8:8:2, the highest 7 d compressive strength of cementitious material was 24.8 MPa. When the proportion of IOTs:SS:FA:SL was 9:6:8:4, the highest 28 d compressive strength of cementitious material was 35.0 MPa. This study provides a comprehensive solution for the utilisation of iron tailings and contributes to the high-value green utilisation of solid waste.

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Mechanical performance and fracture surface analysis of fatty acid-coated iron oxide-reinforced nitrile butadiene composites

Tiar

Julkapli²

2023

Polym. Bull.

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Hydraulic Tiles Produced with Fine Aggregates and Pigments Reclaimed from Iron Ore Tailings

Cited by 10 publications

References 20 publications

Application of Iron Ore Tailings From The Dam Collapse In Mariana - MG In The Development of New Construction Materials: A Systematic Review

Application of Iron Ore Tailings From The Dam Collapse In Mariana - MG In The Development of New Construction Materials: A Systematic Review

Mechanical Properties and Hydration Mechanism of Iron Tailings–Cement-Based Supplementary Cementitious Materials

Mechanical performance and fracture surface analysis of fatty acid-coated iron oxide-reinforced nitrile butadiene composites

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