Utilizing Crushed Limestone as a Sustainable Alternative in Shotcrete Applications

Solving the challenges facing the mining industry is crucial for shaping the global attitude towards clean energy technologies associated with critical minerals extracted from depth. One of these challenges is the well-known explosion-like fractures (rockbursts) or spalling failures associated with...

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Bibliographic Details
Published in:Materials 2024-04, Vol.17 (7), p.1486
Main Authors: Mutaz, Elamin, Dafalla, Muawia, Al-Mahbashi, Ahmed M, Serati, Mehdi
Format: Article
Language:English
Subjects:
Australia
Boring machines
Catastrophic failure analysis
Clean energy
Coal mining
Concrete
Construction industry
Crack initiation
Crushing
Drilling machines (tools)
Energy technology
Failure
Fractures
Green technology
Grout
Limestone
Measuring instruments
Mineral industry
Mines
Mines and mineral resources
Mining industry
Natural resources
Raw materials
Rockbursts
Sand
Saudi Arabia
Spalling
Sprayed concrete
Technology application
Tensile strength
Tunnel construction
Tunnel supports
Underground explosions
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Summary:Solving the challenges facing the mining industry is crucial for shaping the global attitude towards clean energy technologies associated with critical minerals extracted from depth. One of these challenges is the well-known explosion-like fractures (rockbursts) or spalling failures associated with the initiation of internal cracks. To prevent such catastrophic failure, shotcrete, as a cement grout, is widely used in tunnel support applications. In areas where the tunnels are constructed within the limestone strata using tunnel boring machines (TBM), drilling, and/or blasting, millions of cubic meters of crushed limestone (CL) in powder form are extracted and landfilled as waste. Given the fact that natural sand consumption as a raw material in the construction industry exceeds previous records, recycling of such excavation material is now becoming increasingly needed. From this perspective, this study aims to utilize crushed limestone as a potentially sustainable alternative to natural sand in shotcrete applications in deep tunnels. Accordingly, several strength characterization and crack initiation determinations through various stress-strain-based models were carried out on cylindrical samples containing different proportions of crushed limestone. By increasing the crushed limestone content in the shotcrete mix, the crack initiation stress (as a measure of the in situ spalling strength) increased as well. The results suggest that the crushed limestone has good potential to replace the natural sand in the shotcrete mixture used in tunnel support applications.
ISSN:1996-1944
1996-1944
DOI:10.3390/ma17071486