Ledwaba, LSScheepers, JDurrheim, RJSpottiswoode, SM2012-06-222012-06-222012-05Ledwaba, LS, Scheepers, J, Durrheim, RJ and Spottiswoode, SM. Rockburst damage mechanism at Impala Platinum Mine. Second Southern Hemisphere International Rock Mechanics Symposium SHIRMS, Sun City, South Africa, 15-17 May 2012978-1-920410-27-8http://hdl.handle.net/10204/5931Copyright: 2012 The Southern African Institute of Mining and Metallurgy. Reproduced with permission from The Southern African Institute of Mining and Metallurgy.Impala Platinum Mine (Impala), situated north of the town of Rustenburg in the North West Province of South Africa, has experienced an increase in seismicity from ~841 seismic events in the year 2005 to ~1588 seismic events in 2008. The Seismologists and Rock Engineers need to understand the underlying mechanisms and driving forces responsible for seismicity to develop and design mining layouts and support strategies to eliminate or mitigate the risks posed by rockbursts. However, most previous studies of seismicity conducted on Impala and other Bushveld Complex mines in the Rustenburg area provided limited information regarding the source parameters and mechanism due to insufficient data. The study is designed to investigate the seismic hazard on Impala Platinum Mine by means of two approaches: an investigation of seismic spatial distributions and the study of the rockburst damage mechanism of seismic events. A number of detailed investigations of rockbursts were conducted whereby damage was mapped and photographed. The investigations include reviews of the seismic history, short-, medium- and long-term seismic hazard assessment methods, and an analysis of the source parameters of the seismic event and associated ground motions. The study has revealed that most of the seismic events occur close to the reef plane, and are the result of the failure of a volume of rock that includes a pillar and the host rock that forms the foundation of the pillar.enSeismicityRock engineersRockburstsSeismic hazardsImpala Platinum MineConference PresentationLedwaba, L., Scheepers, J., Durrheim, R., & Spottiswoode, S. (2012). Rockburst damage mechanism at Impala Platinum Mine. The Southern African Institute of Mining and Metallurgy. http://hdl.handle.net/10204/5931Ledwaba, LS, J Scheepers, RJ Durrheim, and SM Spottiswoode. "Rockburst damage mechanism at Impala Platinum Mine." (2012): http://hdl.handle.net/10204/5931Ledwaba L, Scheepers J, Durrheim R, Spottiswoode S, Rockburst damage mechanism at Impala Platinum Mine; The Southern African Institute of Mining and Metallurgy; 2012. http://hdl.handle.net/10204/5931 .TY - Conference Presentation AU - Ledwaba, LS AU - Scheepers, J AU - Durrheim, RJ AU - Spottiswoode, SM AB - Impala Platinum Mine (Impala), situated north of the town of Rustenburg in the North West Province of South Africa, has experienced an increase in seismicity from ~841 seismic events in the year 2005 to ~1588 seismic events in 2008. The Seismologists and Rock Engineers need to understand the underlying mechanisms and driving forces responsible for seismicity to develop and design mining layouts and support strategies to eliminate or mitigate the risks posed by rockbursts. However, most previous studies of seismicity conducted on Impala and other Bushveld Complex mines in the Rustenburg area provided limited information regarding the source parameters and mechanism due to insufficient data. The study is designed to investigate the seismic hazard on Impala Platinum Mine by means of two approaches: an investigation of seismic spatial distributions and the study of the rockburst damage mechanism of seismic events. A number of detailed investigations of rockbursts were conducted whereby damage was mapped and photographed. The investigations include reviews of the seismic history, short-, medium- and long-term seismic hazard assessment methods, and an analysis of the source parameters of the seismic event and associated ground motions. The study has revealed that most of the seismic events occur close to the reef plane, and are the result of the failure of a volume of rock that includes a pillar and the host rock that forms the foundation of the pillar. DA - 2012-05 DB - ResearchSpace DP - CSIR KW - Seismicity KW - Rock engineers KW - Rockbursts KW - Seismic hazards KW - Impala Platinum Mine LK - https://researchspace.csir.co.za PY - 2012 SM - 978-1-920410-27-8 T1 - Rockburst damage mechanism at Impala Platinum Mine TI - Rockburst damage mechanism at Impala Platinum Mine UR - http://hdl.handle.net/10204/5931 ER -