Our Services
We Offer a Range of Consulting Services to Meet Your Needs
Numerical Modelling
We possess extensive experience in a variety of numerical modelling techniques, specialising in both geotechnical and fluid flow simulations. Our applications include Slope Stability, Pillar Design, Rock Burst Analysis, and Hydraulic Conductivity, Flow Prediction.
Our expertise allows us to deliver precise and reliable simulations, addressing a wide range of geotechnical challenges with confidence and accuracy.
Geotechnical Characterisation
Rock mass geotechnical characterisation often presents significant challenges. At GeoSAS, we leverage a variety of advanced techniques to address these complexities, including the use of artificial intelligence and downhole geophysical logging data. Our innovative approach ensures accurate and comprehensive characterisation of rock masses, providing critical insights for geotechnical and engineering projects.
In-situ Stress Estimation
As mining operations extend deeper, accurate in-situ stress estimation becomes increasingly crucial. We have extensive experience in this area, employing a variety of methods such as borehole breakout analysis to identify stress-induced failures around boreholes, borehole deformation analysis to determine in-situ stress conditions by analysing changes in borehole shape, and large-scale 3D stress simulations to model stress distributions in three dimensions. Our expertise ensures precise and reliable in-situ stress estimations, supporting safer and more efficient mining operations.
Subsidence Engineering
Subsidence can be accurately predicted using analytical solutions or numerical simulations. We offer both approaches, utilising commercial software packages alongside our proprietary in-house numerical simulators. This dual capability ensures precise and reliable subsidence predictions tailored to meet the specific needs of each project.
Geotechnical Studies
We conduct a variety of geotechnical studies to address challenging issues in the field. To tackle these complex problems, we leverage advancements in individual and combined techniques, state-of-the-art equipment, and sophisticated numerical modelling. Our integrated approach ensures robust and effective solutions for even the most demanding geomechanical challenges.
