Properties of Eco-Friendly Concrete Contained Limestone and Ceramic Tiles Waste Exposed To High Temperature

Hilal, Nahla; Mohammed, Abdulrahman S.; Ali, Taghreed Kh Mohammed

doi:10.1007/s13369-020-04482-x

Cited by 19 publications

(7 citation statements)

References 32 publications

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“…Studies conducted in recent years by academic and scientific researchers have highlighted the potential of using recycled limestone waste as a binder [3][4][5][6][7] or aggregate in cementitious materials [3,[8][9][10], or as a filler in bituminous concrete [11], glass fiber [12], or production of ceramic materials [13][14][15]. The limited studies performed thus far on clay bricks with the addition of limestone waste have increased the interest in studying the potential of local waste recovery in the production of ceramic materials.…”

Section: Introductionmentioning

confidence: 99%

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Assessment of Limestone Waste Addition for Fired Clay Bricks

et al. 2022

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Our aim was to investigate the feasibility of using limestone waste resulting from stone processing for the manufacturing of fired clay bricks. Waste materials were considered as a partial replacement for clays to reduce the exploitation of natural resources and as a response to the climate neutrality commitments. The samples were prepared to have a waste content of up to 15% and were fired at a temperature of 900 °C. The chemical and mineralogical composition and the physical analysis of raw materials were investigated by using SEM–EDS and XRD diffraction. The result showed an increase in CaO in the clay mixture due to the presence of limestone, which reduced the shrinkage of the products’ compressive strength, up to 55% for samples with a higher content of limestone (15 wt.%), and influenced the samples’ color by making them lighter than the reference sample.

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Section: Introductionmentioning

confidence: 99%

“…This has a signomic and environmental impact, as well as a huge potential in recovering the n industry [2,3] as a circular economy measure. s conducted in recent years by academic and scientific researchers have highpotential of using recycled limestone waste as a binder [3][4][5][6][7] or aggregate in…”

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confidence: 99%

Assessment of Limestone Waste Addition for Fired Clay Bricks

et al. 2022

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“…17 (where P is porcelain aggregate concrete, B is semiporcelain aggregate concrete, F is fly ash, S is silica fume, and the numbers represent the content percentages), the addition of fly ash to concrete with ceramic tiles as the only coarse aggregates improved the tensile strength, and the influence of silica fume content on the tensile strength of coarse semiporcelain aggregate concrete was greater than that of coarse porcelain aggregate concrete [65]. In addition, the use of both ceramic waste and other waste (laterite aggregates, recycled aggregates, and limestone powders) in concrete had also been studied, and the optimum mix proportion was obtained [46,95,96].…”

Section: Tensile Strengthmentioning

confidence: 99%

“…The higher the strength grade of concrete, the denser its structure, which made it difficult for CO 2 [32,96]. Adapted with permission from reference [32], Copyright © 2016, John Wiley & Sons, Inc., and reference [96], Copyright © 2020, Springer Nature Switzerland AG to enter concrete. This effectively reduced carbonation depth of concrete.…”

Section: Carbonation Resistancementioning

confidence: 99%

Mechanical Properties and Durability of Sustainable Concrete Manufactured Using Ceramic Waste: A Review

Zhang¹,

Zhang²,

Wu³

et al. 2023

Journal of Renewable Materials

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Green and sustainable concrete has attracted significant attention from the construction industry and researchers since it was proposed. The ceramic waste materials are often directly buried in the ground or placed in an open dump, and the accumulation of ceramic waste contributes to environmental pollution, which makes the recycling of ceramic waste quite urgent. Owing to the pozzolanic activity, excellent mechanical properties and durability, industrial ceramic waste is considered as a suitable substitute for cement or natural aggregates to fabricate renewable concrete. In this paper, the pozzolanic activity of ceramic waste and the workability, mechanical performance, and durability of ceramic concrete are discussed. In addition, the most recent research results pertaining to ceramic concrete are reviewed. Ground ceramic powder improves the workability, compressive strength, resistance to chloride penetration, and carbonation resistance of concrete to a certain extent. Concrete containing ceramic as the aggregate has a lower mechanical performance than ordinary concrete. However, the resistance to chloride penetration, freeze-thaw resistance, and high-temperature resistance of ceramic concrete are remarkable. Ceramic concrete is environmentally friendly, requires fewer energy resources to manufacture than ordinary concrete, and has excellent engineering properties. However, further research is required for future engineering applications.

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“…After 28 days, about 36.1% increase in concrete's strength was achieved with 100% crushed ceramic coarse aggregate compared to the control mixture. Hilal et al (2020) showed that the utilization of crushed ceramic waste led to an increase in compressive and splitting tensile strength at room temperature. The maximum increase in strength was achieved by replacement of 60% crushed ceramic waste, and it was 164% and 128%, respectively, compared to control mixture without crushed ceramic waste and limepowder.…”

Section: Properties Of Concrete With Crushed Ceramicmentioning

confidence: 99%

Improvement of eco-efficient self-compacting concrete manufacture by recycling high quantity of waste materials

Hilal

Hadzima-Nyarko

2021

Environ Sci Pollut Res

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Recycling plastic waste to obtain new materials such as concrete or mortar seems to be one of the best solutions for disposing of plastic waste. Second, in the construction industry, due to the increasing costs of land lls and the lack of a natural large aggregate, the increased interest in crushed ceramics is signi cant. The third type of waste that is dealt with in this article is tea ash because tea is the second most consumed beverage in the world and large amounts of waste are generated. This article attempts to develop the appropriate characteristics of self-compacting concrete by adding the following waste materials: plastic waste, tea waste and collapsed ceramics. In this paper, Fresh and hardened properties of self-compacting concrete with waste materials were investigated. The diameter and time of sediment ow, segregation, L-box ratio, and density of freshly compacted concrete mixtures were measured. Moreover, both 7, 14, and 28-day bending strength and 7 and 28-day bending strength of hardened selfcompacting concrete samples were measured. The results proved the possibility of using plastic waste, tea waste and collapsed ceramics in self-compacted concrete, because they do not signi cantly reduce the hardened and fresh properties of self-compacted concrete.

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Properties of Eco-Friendly Concrete Contained Limestone and Ceramic Tiles Waste Exposed To High Temperature

Cited by 19 publications

References 32 publications

Assessment of Limestone Waste Addition for Fired Clay Bricks

Assessment of Limestone Waste Addition for Fired Clay Bricks

Mechanical Properties and Durability of Sustainable Concrete Manufactured Using Ceramic Waste: A Review

Improvement of eco-efficient self-compacting concrete manufacture by recycling high quantity of waste materials

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