Ecotoxicity of Concretes with Granulated Slag from Gray Iron Pilot Production as Filler

Hybská, Helena; Hroncová, Emília; Ladomerský, Juraj; Balco, Karol; Mitterpach, Jozef

doi:10.3390/ma10050505

Cited by 21 publications

(9 citation statements)

References 14 publications

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“…A study on the ecotoxicity of concrete with the addition of granular slag as the filler also presents the possibility of the utilization of secondary materials. Ecotoxicological tests are also required to determine the properties so as to verify the practical usability of the mixture with a guarantee of its material non-toxicity for other sources [22]. The results of the studies described above confirm the idea of using secondary raw materials and sludge water in the production of concrete in order to save the natural resources and to reduce the cost of production of 1 m 3 of concrete, while maintaining the physical and mechanical properties of concrete.…”

Section: Introductionmentioning

confidence: 68%

The Utilization of Waste Water from a Concrete Plant in the Production of Cement Composites

et al. 2017

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This article presents the results of a study dealing with the utilization of sludge water from a concrete plant as a partial replacement for mixing water in the production of cement composites. The replacement of mixing water with sludge water from a concrete plant was carried out in the amounts of 20% and 50%. The following tests were carried out in order to determine the effect of the replacement of mixing water with sludge water from a concrete plant on the physical and mechanical properties of the cement composites: cement mortar consistency, beginning and end of setting, strength characteristics (compressive strength and flexural strength), and thermal properties.The measured values of the strength characteristics of the test specimens after 28 days of age confirm the possibility of replacing mixing water with sludge water from a concrete plant without significantly reducing the compressive and flexural strength.

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Section: Introductionmentioning

confidence: 68%

The Utilization of Waste Water from a Concrete Plant in the Production of Cement Composites

et al. 2017

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“…The resulting byproduct, ladle furnace slag, has been used as a sand and cement substitute in masonry mortars, showing improvements in workability and mechanical strength in the medium term [ 30 ]. However, the use of LFS as a substitute in civil construction is less suitable due to its high expansiveness, especially when used in roads as an aggregate substitute [ 31 , 32 , 33 , 34 ].…”

Section: Introductionmentioning

confidence: 99%

Concrete Properties Comparison When Substituting a 25% Cement with Slag from Different Provenances

et al. 2018

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Concrete consumption greatly exceeds the use of any other material in engineering. This is due to its good properties as a construction material and the availability of its components. Nevertheless, the present worldwide construction increases and the high-energy consumption for cement production means a high environmental impact. On the other hand, one of the main problems in the iron and steel industry is waste generation and byproducts that must be properly processed or reused to promote environmental sustainability. One of these byproducts is steel slag. The cement substitution with slag strategy achieves two goals: raw materials consumption reduction and waste management. In the present work, four different concrete mixtures are evaluated. The 25% cement substitution is carried out with different types of slag. Tests were made to evaluate the advantages and drawbacks of each mixture. Depending on the origin, characteristics, and treatment of the slag, the concrete properties changed. Certain mixtures provided proper concrete properties. Stainless steel slag produced a fluent mortar that reduced water consumption with a slight mechanical strength loss. Mixtures with ground granulated blast furnace slag properties are better than the reference concrete (without slag).

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“…Although those species are very representative for the aquatic environments, the scenarios of construction products are often in the terrestrial environment, turning those species not always the ideal match for the necessary bioassays. Ecological risk assessment from construction materials can be examined by aquatic and terrestrial biomarkers [ 15 ], among others, the ecotoxicological tests using the Oligochaeta species of genus Enchytraeidae . Although ecotoxicological tests using these species have been developed and standardized only within the last two decades, it became an important indicator organism for the determination of impacts on soil ecosystem due to their sensitivity to a broad spectrum of xenobiotics, ease of maintenance in the laboratory [ 15 ], and widely representation worldwide [ 16 , 17 , 18 ].…”

Section: Introductionmentioning

confidence: 99%

Testing of Eluates from Waterproof Building Materials for Potential Environmental Effects Due to the Behavior of Enchytraeus albidus

2021

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In order to determine the potential environmental impact of construction products, it is necessary to evaluate their influence on organisms exposed to them or their eluates under environmental conditions. The behavior of the white worm Enchytraeus albidus is a useful tool for assessing the potential environmental impact of construction products in contact with water and soil. This study investigates the environmental effects of eluates from two construction products, a reactive waterproofing product, and an injection resin, on the reproduction and avoidance behavior of E. albidus. The eluates were prepared according to existing guidelines. The soil used for the tests was moistened with the eluates of the construction products. The reproduction results of the worms were collected after six weeks of exposure. Offsprings were counted under the microscope and statistically analyzed. Results from the avoidance behavior were collected after 48 h of exposure, and results were compared with the reproduction results. The eluates from both construction products induced significant changes in the reproduction behavior of E. albidus. Undiluted or only slightly diluted eluates of the injection resin drastically reduced the reproduction of the worms, whereas the leaches of the reactive waterproofing product only had a minor effect. The avoidance results for the injection resin indicates that its presence in the habitat is clearly detrimental to the survival of E. albidus, while the avoidance results for the waterproofing resin showed an initial avoidance of the eluates, but no harmful effects were observed. The avoidance test is a way of rapid toxicity screening of environmental samples when time is a critical parameter to measure possible environmental effects. This study shows that ecotoxicological tests using Enchytraeids are a valuable and important tool for understanding the mode of action of eluates from construction products in the environment.

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Ecotoxicity of Concretes with Granulated Slag from Gray Iron Pilot Production as Filler

Cited by 21 publications

References 14 publications

The Utilization of Waste Water from a Concrete Plant in the Production of Cement Composites

The Utilization of Waste Water from a Concrete Plant in the Production of Cement Composites

Concrete Properties Comparison When Substituting a 25% Cement with Slag from Different Provenances

Testing of Eluates from Waterproof Building Materials for Potential Environmental Effects Due to the Behavior of Enchytraeus albidus

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