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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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Compared to Limit Equilibrium

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

Simulating Spalling With a Flat-Jointed Material

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27 June 2026 - 27 June 2026

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An Introduction to Python Scripting: Part 2

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FLAC3D mesh and zone quality

Numerical Evaluation of Effectiveness of Drainwells in Dewatering Overburden at Surface Coal Mines

Influence of the particle shape on the impact force of lahar on an obstacle

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ITASCA Joins Caving 2026 as a Main Sponsor

11 Aug 2026 - 13 Aug 2026

We are pleased to announce that ITASCA will be participating as a Main Sponsor in Caving 2026, the leading international conference dedicated to block and sublevel caving mining methods, taking place from 11–13 August 2026 at the Shangri-La Ulaanbaatar in Mongolia.

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ITASCA Joins Caving 2026 as a Main Sponsor

ITASCA at EUROCK 2026: Advancing Innovation in Rock Engineering

ITASCA to Participate in CouFrac 2026

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About
Kálmán Benedek

Hydrogeology Manager

Kálmán Benedek has more than 20 years of experience in hydrogeology, and has contributed his professional expertise to the mining industry, O&G, infrastructure and waste management, in Europe, North and South America, Asia and Australia.

Kálmán has wide experience in testing concepts (permanent and transient flow and transport), by using numerical (EPM, DFN) and analytical tools. He has conducted numerous reservoir evaluation (well test simulation, reservoir conceptualisation), mine dewatering, rock block stability, DFN geomechanical and well test simulation (analytical and numerical) projects, conceptual designs to help operators to make better development decisions. In addition, he was involved in many mining (tailing design and stability, monitoring, in-situ hydraulic testing, sampling, seepage assessment), oil and gas (well test interpretations), infrastructure (hydraulic testing, interpretations, numerical simulations, seepage assessment) and contaminated land projects.

Kálmán has special interest in developing alternative conceptual models, risk-based approaches which may result in business, risk and cost benefits for his clients and various stakeholders.

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ITASCA Strengthens North American Delivery of Integrated Geomechanics and Hydrogeology Solutions

WEBINAR: Solving Geothermal Challenges with XSite Numerical Modeling

Itasca has announced the release of FLAC2D v9

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Software Tutorials

An Introduction to Python Scripting: Part 2

Introduction to Python scripting by reviewing key concepts and through demonstrations. Part 2 focuses on classes and objects plus lists and dictionaries.

MINEDW Tutorial (Part 3: Boundary Conditions)

In this tutorial we will take a look at the different boundary conditions available to the user, and we will go over some examples of different scenarios in which they would be used.

MINEDW Tutorial (Part 4: Meshing)

In this tutorial we will go over meshing, from the creation of a 2D mesh and how to import it to MINEDW, to the inclusion of topography, layers, and pinch-outs to different areas of interest in the model.

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Technical Papers

FLAC3D mesh and zone quality

Mesh quality is crucial for the stability, accuracy, and fast convergence of numerical simulations. However, given the geometrical complexity of some models and the tools available for mesh creation, it is often necessary to accept meshes that deviate significantly from the known ideal shape.

Numerical Evaluation of Effectiveness of Drainwells in Dewatering Overburden at Surface Coal Mines

Typical sedimentary sequences overlying coal seams consist of interbedded sandstones, siltstones, shales, and rider coal seams.

Influence of the particle shape on the impact force of lahar on an obstacle

Lahars represent natural phenomena that can generate severe damage in densely populated urban areas. The evaluation of pressures generated by these mass flows on constructions (buildings, infrastructure…) is crucial for civil protection and assessment of physical vulnerability. The existing tools to model the spread of flows at large scale in densely populated urban areas remain inaccurate in the estimation of mechanical efforts. A discrete numerical model is developed for evaluating debris flow (DF) impact pressures at the local scale of one structure.

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Latest News

ITASCA Strengthens North American Delivery of Integrated Geomechanics and Hydrogeology Solutions Drawing on decades of geomechanical and hydrogeological expertise, ITASCA has announced the formation of ITASCA...
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WEBINAR: Solving Geothermal Challenges with XSite Numerical Modeling ITASCA Software and Baker Hughes are hosting a collaborative webinar to demonstrate how combining advanced...
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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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Upcoming Events

11 Aug

ITASCA Joins Caving 2026 as a Main Sponsor
We are pleased to announce that ITASCA will be participating as a Main Sponsor in Caving 2026, the leading international conference ded... Read More

15 Sept

ITASCA at EUROCK 2026: Advancing Innovation in Rock Engineering
ITASCA is pleased to announce its participation in EUROCK 2026 – ISRM Regional Symposium, taking place from 15–19 September 2026 in Sko... Read More

20 Sept

ITASCA to Participate in CouFrac 2026
ITASCA will be participating in CouFrac 2026, taking place from 20–23 September 2026 in Uppsala, Sweden. The conference brings together... Read More