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1. Trends for the Monotonic Response of Mine Tailings Under Critical State Soil Mechanics

   Vergaray, Luis; Macedo, Jorge (June 2021, Tailings 2021 conference on tailings management)

   Static liquefaction has been associated with several failures of tailings storage facilities (TSFs) around the world. The failures result in devastating consequences for the environment and for civil infrastructure, as well as losses of human life. In this study, we present trends for the response of mine tailings to monotonic loading considering a) triaxial tests, b) bender element tests, and c) consolidation tests performed on mine tailings. These materials have a broad range of states, particle size distributions, and compressibility. The trends are evaluated in the context of static liquefaction using the critical state soil mechanics framework. In particular, we present trends for shear strength (residual and peak), state and brittleness soil indexes, instability stress ratios, and dilatancy. Besides, we highlight that mine tailings' mechanical properties reflect both the properties of the particles themselves and the relative proportions of different particle sizes. For instance, the observed trends suggest that particle gradation influences the small strain stiffness and dilatancy; the proportion of voids to the size of fine particles influences strength, and particle shape affects dilatancy. Finally, static liquefaction screening indexes are proposed based on the observed trends 

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2. Properties of mine tailings for static liquefaction assessment

   https://doi.org/10.1139/cgj-2020-0600  

   Macedo, Jorge; Vergaray, Luis (May 2022, Canadian Geotechnical Journal)

   Static liquefaction has been associated with numerous recent failures of tailings storage facilities (TSFs) around the world (e.g., the 2019 Brumadinho failure). These failures lead to devastating consequences for the environment and civil infrastructure as well as the loss of human lives. In this study, we present trends for the mechanical response of mine tailings considering (i) triaxial tests, (ii) bender element tests, and (iii) consolidation tests on 53 mine tailings materials (including recent case histories). These materials have a broad range of states, particle size distributions, and compressibility. The trends are evaluated in the context of static liquefaction using critical state soil mechanics concepts, focusing on the variation of the shear strength (residual and peak), state and brittleness soil indexes, excess pore pressure indexes, instability stress ratios, and dilatancy. In particular, we highlight that mine tailings’ mechanical properties reflect both the properties of the particles themselves and the relative proportions of different particle sizes. For instance, the observed trends suggest that particle gradation influences the small strain stiffness and dilatancy; the proportion of voids to the size of fine particles influences strength, and particle shape affects dilatancy. Finally, we propose static liquefaction screening indexes based on the observed trends. 

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3. Critical state-based trends for the monotonic response of mine tailings

   Vergaray, Luis; Macedo, Jorge (November 2021, Tailings and mine waste conference)

   Static liquefaction has been associated with numerous recent failures of tailings storage facilities (TSFs) around the world (e.g., the 2019 Brumadhino failure in Brazil). These failures lead to devastating consequences for the environment and civil infrastructure and lead to loss of human lives. Static liquefaction is just another facet of soil behavior under monotonic loadings, and hence it should be explained under a mechanistic framework. In this study, we present trends for the response of mine tailings to monotonic loading considering a) triaxial tests, b) bender element tests, and c) consolidation tests performed on 53 mine tailings materials (including recent case histories). These materials have a broad range of states, a range of particle size distributions (from silty sand to almost pure silt mine tailings), and a broad range of compressibility. The trends are evaluated in the context of static liquefaction using critical state soil mechanics concepts and considering different state definitions. In particular, we present trends for shear strength (residual and peak), state and brittleness soil indexes, excess pore pressure indexes, and dilatancy. Finally, static liquefaction screening indexes are proposed based on the observed trends. 

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4. Mechanical-based properties of mine tailings for static liquefaction

   https://doi.org/10.1061/9780784484036.018  

   Vergaray, Luis; Macedo, Jorge (March 2022, Geocongress 2022)

   Static liquefaction has been associated with numerous recent failures of tailings storage facilities (TSFs) around the world. These failures lead to devastating consequences for the environment and civil infrastructure and lead to the loss of human lives. In this study, we present trends for the response of mine tailings to monotonic loading considering (1) triaxial tests, (2) bender element tests, and (3) consolidation tests performed on mine tailings. These materials have a broad range of states (i.e., from very loose to dense states), a range of particle size distributions (i.e., from silty sand to almost pure silt mine tailings), and a broad range of compressibility. The trends are evaluated in the context of static liquefaction using critical state soil mechanics concepts considering different state definitions. In particular, we present trends for shear strength (residual and peak), state and brittleness soil indexes, and excess pore pressure indexes. Finally, static liquefaction screening indexes are proposed based on the observed trends, highlighting that static liquefaction is just another facet of soil behavior under monotonic loadings, and hence it should be explained under a mechanistic framework. 

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5. A novel experimental database on the cyclic response of mine tailings

   https://doi.org/10.1177/87552930231215243  

   Arnold, Cody; Macedo, Jorge (January 2024, Earthquake Spectra)

   Understanding the cyclic response of mine tailings is key for areas with moderate to high seismicity and an active mining industry (e.g. the United States, Peru, and Chile). However, assessing the cyclic response of mine tailings still relies on procedures and correlations developed for natural soils (i.e. sands and clays). This is due to information on the cyclic response of mine tailings being rather scarce compared to natural soils. Hence, it remains unclear if more efficient approaches can be implemented. This study presents an experimental database focused on the cyclic response of mine tailings compiled from various sources. The database is organized considering three classes, where all three contain cyclic simple shear (CSS) information. Class A also includes triaxial (Tx) and cone penetration testing (CPTu) information, Class B has Tx or CPTu information, and Class C contains no additional information beyond CSS. Most materials belong to Class A. It is worth noting that Class C (only cyclic information) is comparable with most databases for natural soils, hence highlighting the uniqueness of our database. In total, the database contains 129 CSS tests on 20 materials that represent a broad range of mine tailings. Thirteen materials belong to Class A, 5 to Class B, and 2 to Class C. In discussing the database, key information (e.g. the range of liquefaction resistance curves) is shared. In addition, potential assessments that can be conducted with the database are illustrated. The study closes by presenting the database organization and discussing potential uses. The database is available under the following DOI: https://doi.org/10.17603/ds2-1k0a-dt17 

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