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Development of a 3D structural model of a mine by consolidating different data sources

Abstract

Joints and faults are inherent parts of the rock mass. In the vast majority of mining slopes, discontinuity structures play an important role in slope stability and may trigger a slope failure. The most important step in understanding the slope failure mechanism is to have a reliable model, which shows how all the discontinuity sets are constituted in the rock mass and how they interact with each other. However, building a fracture model is not a straightforward process, since it needs to combine discontinuity information from a variety of sources, such as detailed slope mapping, borehole logging data and remote sensing technologies. Hence, this manuscript attempts to develop a comprehensive structural model of the complete mine area in an open pit, which is the biggest in Norway with respect to its depth and area of coverage. The manuscript demonstrates on how it is possible to consolidate information from different sources in order to identify typical orientation of the detailed fractures that are associated with the main structural lineaments. The process involves analysis of different sources of data in order to correlate this information into useful evidence about the orientation of the fracture systems in terms of dip and dip direction. Further, the mine is divided into different structural domains and a 3D structural model is developed. As an end result, the domains are kinematically tested with respect to different types of failure modes in both overall slope and bench slope scale of the mine for both a hanging wall and foot wall. It is highlighted here that the results presented in this manuscript are the part of the research project called "Decisive Parameters for Open Pit Slopes
(DePOPS)".
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Category

Academic article

Language

English

Author(s)

  • Mario Orlando Cardenas Morales
  • Krishna Kanta Panthi
  • Konstantinos Botsialas
  • Kristin Hilde Holmøy

Affiliation

  • Norwegian University of Science and Technology
  • Titania AS
  • SINTEF Community / Infrastructure

Year

2017

Published in

Bulletin of Engineering Geology and the Environment

ISSN

1435-9529

Publisher

Springer

Volume

78

Page(s)

35 - 53

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