A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Materials properties of barricade bricks for mining applications
Abstract Barricade bricks are fundamental to the safe operation of a mining site. Past failures have lead to loss of life and reduced mine efficiency or even shut down. The fundamental material property that determines the operational characteristics of barricade bricks is their permeability, which must be tailored to suit the operational environment of the mine. The ability of the barricade to control the hydraulic pressure within a stope application is crucial for safety and economic returns. In the current work practical barricade bricks were tested for permeability. As well, the strength and modulus of bricks were measured after being soaked in water for either 7 or 90 days so that a measure of their engineering functionality could be determined. The primary conclusions of this work are as follows. There was substantial deviation in permeability between bricks; however, the average permeability of the barricade bricks was several orders of magnitude larger than the values obtained for the hydraulic fill. This difference indicates that modelling efforts can assume that the barricade does not contribute to the pore pressure development within the fill. Hence the drainage of the system is not related to the permeability of these bricks provided that the barricades are built from the bricks in such a way that the construction or future migration of fines from the fill does not impede the drainage performance.
Materials properties of barricade bricks for mining applications
Abstract Barricade bricks are fundamental to the safe operation of a mining site. Past failures have lead to loss of life and reduced mine efficiency or even shut down. The fundamental material property that determines the operational characteristics of barricade bricks is their permeability, which must be tailored to suit the operational environment of the mine. The ability of the barricade to control the hydraulic pressure within a stope application is crucial for safety and economic returns. In the current work practical barricade bricks were tested for permeability. As well, the strength and modulus of bricks were measured after being soaked in water for either 7 or 90 days so that a measure of their engineering functionality could be determined. The primary conclusions of this work are as follows. There was substantial deviation in permeability between bricks; however, the average permeability of the barricade bricks was several orders of magnitude larger than the values obtained for the hydraulic fill. This difference indicates that modelling efforts can assume that the barricade does not contribute to the pore pressure development within the fill. Hence the drainage of the system is not related to the permeability of these bricks provided that the barricades are built from the bricks in such a way that the construction or future migration of fines from the fill does not impede the drainage performance.
Materials properties of barricade bricks for mining applications
Berndt, Christopher C. (author) / Rankine, Kirralee J. (author) / Sivakugan, Nagaratnam (author)
2007
Article (Journal)
English
Materials properties of barricade bricks for mining applications
| British Library Online Contents | 2007
Materials properties of barricade bricks for mining applications
| Online Contents | 2007
Permeability of Hydraulic Fills and Barricade Bricks
| Online Contents | 2006
Permeability of Hydraulic Fills and Barricade Bricks
| Springer Verlag | 2006
Permeability of Hydraulic Fills and Barricade Bricks
| British Library Online Contents | 2006