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Simulating Spalling With a Flat-Jointed Material

Long-term storage of spent fuel is critical to the nuclear energy industry. The Swedish Nuclear Fuel and Waste Management Company (SKB) is developing an approach for the storage of spent nuclear fuel in an underground repository in competent crystalline rock. In order to better understand the spalling damage process, an in-situ test involving the drilling of two boreholes was performed in Äspö diorite at SKB’s underground hard rock laboratory in Äspö. Tests and monitoring were performed on the pillar that separated the boreholes. In order to further investigate the damage process, Itasca performed numerical modeling using PFC3D and FLAC3D.

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Reinforcement of a quay in the Port of Le Havre with rigid inclusions

Breakage modelling of clay cylinders along the feed process to a kiln

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3 Mar 2026 - 3 Mar 2026

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Homogeneous Embankment Dam Analysis (Part 2 of 3)

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Flowback Test Analyses at the Utah Frontier Observatory for Research in Geothermal Energy (FORGE) Site

Solving rock mechanics issues through modelling: then, now, and in the future?

The Economic Challenges of Dewatering at the Victor Diamond Mine in Northern Ontario, Canada

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About
Robert Lowther

Principal Geotechnical Engineer

Robert Lowther has over 20 years of experience in operations and projects encompassing sub-level caving, block caving, large open pits, hydraulic fracturing, and feasibility studies in both Australia and Papua New Guinea. His areas of interest include cave mining geomechanics, rock slope geomechanics, hydraulic fracturing for cave propagation and seismic hazard reduction, numerical modelling, ground support design for seismically active and strain bursting conditions, surface and underground based deformation monitoring, cave monitoring, and understanding the evolution of damage to mine excavations.

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Itasca at Balkanmine 2025!

Itasca has announced the release of FLAC2D v9

6th Itasca Symposium on Applied Numerical Modeling

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FLAC3D 6.0 Interactive Model Pane

Plotting 3D Isosurfaces

This tutorial demonstrates how you can add isosurfaces to your 3D Itasca model plots.

Homogeneous Embankment Dam Analysis (Part 2 of 3)

This FLAC 8.1 tutorial demonstrates how to conduct a steady-state seepage analysis to calculate the pore water pressures in the embankment due to the reservoir.

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Technical Papers

Flowback Test Analyses at the Utah Frontier Observatory for Research in Geothermal Energy (FORGE) Site

Injection testing conducted in 2017 and 2019 at the Frontier Observatory for Research in Geothermal Energy site in Utah evaluated flowback as an alternative to prolonged shut-in periods to infer closure stress, formation compressibility, and formation permeability. Flowback analyses yielded lower inferred closure stresses than traditional shut-in methods and indicated high formation compressibility, suggesting an extensive fractured system. Numerical simulations showed rebound pressure is not necessarily the lower bound of minimum principal stress. Stiffness changes can be identified as depletion transitions from hydraulic to natural fractures. The advantage if flowback is reduced time to closure.

Solving rock mechanics issues through modelling: then, now, and in the future?

The Economic Challenges of Dewatering at the Victor Diamond Mine in Northern Ontario, Canada

The challenges of mining economically have never been greater than under current global financial conditions.

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Latest News

Itasca at Balkanmine 2025! Itasca is pleased to announce its participation in the Balkanmine 2025 Conference. Our experts Lauriane...
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Itasca has announced the release of FLAC2D v9 Itasca has announced the release of FLAC2D v9, revolutionizing the way we analyze and predict...
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6th Itasca Symposium on Applied Numerical Modeling The next Itasca Symposium will take place June 3 - 6, 2024, in Toronto, Canada....
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