TY - GEN
T1 - Geotechnical design of the sublevel stoping method for the Poder and TrabajoVeins in the San Genaro Mine - Peru
AU - Samaniego, A.
AU - Pehovaz, H. I.
PY - 2012
Y1 - 2012
N2 - The study consists of determining the dimensions of the stable open stopes according to the geological and geomechanical conditions of the various sectors analyzed in the Poder and Trabajo Veins in the San Genaro mine (Peru). This is achieved by conducting basic geotechnical investigations and evaluating characteristics such as maximum openings and pillar dimensions. The analysis of the data from geological mapping and discontinuity characterization, as well as the results of the laboratory testing, allow for the characterization and geomechanical classification of the rock mass and the ore body. The RMR, Q and GSI rock mass classification systems are used in the geomechanical characterization. Rock mass strength is estimated using the Hoek and Brown (2002) failure criterion. Stope stability assessment is carried out by means of the Mathews (1980) stability graph method. For this study, the latest version, updated by C. Mawdesley & R. Trueman (2000), was used. Rib pillars were designed using the empirical method, which involves designing inclined pillars based on their strength, first estimating the induced stress field acting on the pillar with the Obert and Duvall method, and then estimating pillar strength using the Lunder and Pakalnis methods (1997). Finally, as a supplement to the empirical methodology applied, a stress-strain analysis was performed by means of the geomechanical software Phase2.
AB - The study consists of determining the dimensions of the stable open stopes according to the geological and geomechanical conditions of the various sectors analyzed in the Poder and Trabajo Veins in the San Genaro mine (Peru). This is achieved by conducting basic geotechnical investigations and evaluating characteristics such as maximum openings and pillar dimensions. The analysis of the data from geological mapping and discontinuity characterization, as well as the results of the laboratory testing, allow for the characterization and geomechanical classification of the rock mass and the ore body. The RMR, Q and GSI rock mass classification systems are used in the geomechanical characterization. Rock mass strength is estimated using the Hoek and Brown (2002) failure criterion. Stope stability assessment is carried out by means of the Mathews (1980) stability graph method. For this study, the latest version, updated by C. Mawdesley & R. Trueman (2000), was used. Rib pillars were designed using the empirical method, which involves designing inclined pillars based on their strength, first estimating the induced stress field acting on the pillar with the Obert and Duvall method, and then estimating pillar strength using the Lunder and Pakalnis methods (1997). Finally, as a supplement to the empirical methodology applied, a stress-strain analysis was performed by means of the geomechanical software Phase2.
KW - Case studies
KW - Mine design
KW - Stability analysis
UR - https://www.scopus.com/pages/publications/85133772731
M3 - Contribución a la conferencia
AN - SCOPUS:85133772731
SN - 9780415804448
T3 - Harmonising Rock Engineering and the Environment - Proceedings of the 12th ISRM International Congress on Rock Mechanics
SP - 1573
EP - 1577
BT - Harmonising Rock Engineering and the Environment - Proceedings of the 12th ISRM International Congress on Rock Mechanics
PB - CRC Press
T2 - 12th International Congress on Rock Mechanics of the International Society for Rock Mechanics, ISRM 2011
Y2 - 18 October 2011 through 21 October 2011
ER -