Flowability, microstructure, early and long-term strength modification of cemented ultrafine tailings backfill using artificial lightweight aggregates

Flowability, microstructure, early and long-term strength modification of cemented ultrafine tailings backfill using artificial lightweight aggregates

Ultrafine tailings (UFT) characterized by the average particle size <19 μm are increasingly discharged from mining process. Due to the large specific surface area and high content of clay components for UFT, cemented ultrafine tailings backfill (CUFTB) usually exhibits the poor flowability and st...

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Published in:Construction & building materials Vol. 438; p. 137253
Main Authors: Li, Qianlong, Wang, Bingwen
Format: Journal Article
Language:English
Published: Elsevier Ltd 09-08-2024
Subjects:
Cemented ultrafine tailings backfill
Cold-bonded lightweight aggregates
Digital image correlation
Microstructure analysis
Particle size gradation
Slump flow
Strength
Microstructure analysis
Cold-bonded lightweight aggregates
Particle size gradation
Digital image correlation
Strength
Cemented ultrafine tailings backfill
Slump flow
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Abstract Ultrafine tailings (UFT) characterized by the average particle size <19 μm are increasingly discharged from mining process. Due to the large specific surface area and high content of clay components for UFT, cemented ultrafine tailings backfill (CUFTB) usually exhibits the poor flowability and strength, which poses an obstacle to the practical application in mine filling. Therefore, this study aims to explore the feasibility of modifying CUFTB through incorporating cold-bonded tailings lightweight aggregates (CBTLWAs). A series of mini slump cone, unconfined compressive strength (UCS), digital image correlation (DIC), microanalysis tests were conducted to investigate the effects of CBTLWAs with uniform particle sizes (d=2, 4, 6, 8 mm) and full particle gradations (Talbot coefficients n=0.2, 0.4, 0.6, 0.8) on slump flow (SF), UCS, microstructure, and deformation behaviour of CUFTB. Results indicate that adding CBTLWAs as a partial substitute for UFT effectively improves the flowability and strength of CUFTB. With CBTLWAs dosage increases from 15 to 40 wt%, the SF values increase steadily, and the highest values are observed when d=2 mm and n=0.6. After curing of 3–180 days, the UCS values exceed 1.0 MPa, and the highest values are found in CUFTB when d=8 mm and n=0.4 or 0.6. There is an optimal dosage (20–30 wt%) for CBTLWAs depending on the particle sizes and gradations. Hydration reactions of IWRs-based binder generated C-S-H, calcite, and ettringite. CBTLWAs bonded with CUFTB matrix to form a skeleton structure, hindering the propagation of cracks and enhancing the ductility. CUFTB incorporating CBTLWAs exhibits a hybrid mode of shear and tensile failure. The utilization of CBTLWAs shows a promising solution to address the challenges associated with performance modification for CUFTB. This provides a more environmentally responsible approach to solid wastes management and contributes to the sustainability of mining industry. [Display omitted] •Lightweight aggregates are used to modify flowability and strength of CUFTB.•Effect of uniform size and particle size gradation of CBTLWA are investigated.•There are optimal particle size, gradation, and dosage for performance improvement.•CUFTB containing CBTLWA show the hybrid mode of shear and tensile failure.
AbstractList Ultrafine tailings (UFT) characterized by the average particle size <19 μm are increasingly discharged from mining process. Due to the large specific surface area and high content of clay components for UFT, cemented ultrafine tailings backfill (CUFTB) usually exhibits the poor flowability and strength, which poses an obstacle to the practical application in mine filling. Therefore, this study aims to explore the feasibility of modifying CUFTB through incorporating cold-bonded tailings lightweight aggregates (CBTLWAs). A series of mini slump cone, unconfined compressive strength (UCS), digital image correlation (DIC), microanalysis tests were conducted to investigate the effects of CBTLWAs with uniform particle sizes (d=2, 4, 6, 8 mm) and full particle gradations (Talbot coefficients n=0.2, 0.4, 0.6, 0.8) on slump flow (SF), UCS, microstructure, and deformation behaviour of CUFTB. Results indicate that adding CBTLWAs as a partial substitute for UFT effectively improves the flowability and strength of CUFTB. With CBTLWAs dosage increases from 15 to 40 wt%, the SF values increase steadily, and the highest values are observed when d=2 mm and n=0.6. After curing of 3–180 days, the UCS values exceed 1.0 MPa, and the highest values are found in CUFTB when d=8 mm and n=0.4 or 0.6. There is an optimal dosage (20–30 wt%) for CBTLWAs depending on the particle sizes and gradations. Hydration reactions of IWRs-based binder generated C-S-H, calcite, and ettringite. CBTLWAs bonded with CUFTB matrix to form a skeleton structure, hindering the propagation of cracks and enhancing the ductility. CUFTB incorporating CBTLWAs exhibits a hybrid mode of shear and tensile failure. The utilization of CBTLWAs shows a promising solution to address the challenges associated with performance modification for CUFTB. This provides a more environmentally responsible approach to solid wastes management and contributes to the sustainability of mining industry. [Display omitted] •Lightweight aggregates are used to modify flowability and strength of CUFTB.•Effect of uniform size and particle size gradation of CBTLWA are investigated.•There are optimal particle size, gradation, and dosage for performance improvement.•CUFTB containing CBTLWA show the hybrid mode of shear and tensile failure.
ArticleNumber 137253
Author Li, Qianlong
Wang, Bingwen
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  organization: School of Energy and Mining Engineering, China University of Mining & Technology (Beijing), Beijing 100083, PR China
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Keywords Microstructure analysis
Cold-bonded lightweight aggregates
Particle size gradation
Digital image correlation
Strength
Cemented ultrafine tailings backfill
Slump flow
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Snippet Ultrafine tailings (UFT) characterized by the average particle size <19 μm are increasingly discharged from mining process. Due to the large specific surface...
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StartPage 137253
SubjectTerms Cemented ultrafine tailings backfill
Cold-bonded lightweight aggregates
Digital image correlation
Microstructure analysis
Particle size gradation
Slump flow
Strength
Title Flowability, microstructure, early and long-term strength modification of cemented ultrafine tailings backfill using artificial lightweight aggregates
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