The Experimental Characterization of Iron Ore Tailings from a Geotechnical Perspective

Coelho, Paulo; Camacho, David

doi:10.3390/app14125033

Applied Sciences

2024

DOI: 10.3390/app14125033

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The Experimental Characterization of Iron Ore Tailings from a Geotechnical Perspective

Paulo Coelho,

David Camacho

Abstract: The mining industry produces large amounts of tailings which are disposed of in deposits, which neglects their potential value and represents important economic, social and environmental risks. Consequently, implementing circular economy principles using these unconventional geomaterials may decrease the wide-ranging impacts of raw material extraction. This paper presents an experimental characterization of iron ore tailings, which are the most abundant type of mining waste. The characterization includes vario… Show more

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Cited by 3 publications

References 24 publications

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A multidisciplinary evaluation of mixtures of municipal solid waste incineration bottom ash and mine tailings for sustainable geotechnical solutions

Monteiro,

Bandarra,

Quina

et al. 2024

Construction and Building Materials

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A multidisciplinary evaluation of mixtures of municipal solid waste incineration bottom ash and mine tailings for sustainable geotechnical solutions

Monteiro,

Bandarra,

Quina

et al. 2024

Construction and Building Materials

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Evolution laws of underflow concentration and rake torque during initial commissioning of DCT: Insight into the impact of high-level circulation and floc residence time

Liu,

Wang,

et al. 2025

Construction and Building Materials

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Influence of Environmental Conditions on the Behaviour of Tailings from Tungsten Mining for Sustainable Geotechnical Applications and Storage

Oliveira,

Araújo Santos,

Ribeiro

et al. 2024

Sustainability

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Modern societies require increasingly large amounts of minerals and metals for their development. Therefore, huge amounts of waste must be stored in safe and cost-effective massive tailing storage facilities that would benefit from using tailings in sustainable geotechnical applications within the context of the circular economy. However, to consider tailings as assets, the long-term behaviour of these unconventional geomaterials under realistic environmental conditions must be assessed. This paper focuses on the effects of the environmental conditions on the behaviour of tailings from tungsten mining by experimentally determining their major physical and mechanical properties for three different conditions: twenty-months-aged undisturbed samples and reconstituted samples, with the latter being fresh and three months. The results confirm that twenty-months-aged undisturbed and fresh reconstituted tailings have significantly different mechanical behaviour, while three-months-aged reconstituted samples show an in-between behaviour as if the material regenerates and improved its behaviour with time due to physical and chemical processes. These ageing processes are experimentally confirmed by measuring the electrical conductivity in the samples. The results confirm that optimising the design of tailing storage facilities and using these geomaterials in sustainable geotechnical applications must consider the existing environmental conditions and the potential tailings’ mechanical changes due to ageing.

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The Experimental Characterization of Iron Ore Tailings from a Geotechnical Perspective

Cited by 3 publications

References 24 publications

A multidisciplinary evaluation of mixtures of municipal solid waste incineration bottom ash and mine tailings for sustainable geotechnical solutions

A multidisciplinary evaluation of mixtures of municipal solid waste incineration bottom ash and mine tailings for sustainable geotechnical solutions

Evolution laws of underflow concentration and rake torque during initial commissioning of DCT: Insight into the impact of high-level circulation and floc residence time

Influence of Environmental Conditions on the Behaviour of Tailings from Tungsten Mining for Sustainable Geotechnical Applications and Storage

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