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

As part of the reinforcement work of the Joannes Couvert quay in the Port of Le Havre, soil reinforcement by rigid inclusions (RI) is planned to be used in the rear of the future quay structure, to allow the passage of heavy cranes during the operational phase.

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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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About
Gys Basson

Numerical Modeller, Software Engineer and Seismologist

Gys Basson has over 15 years of experience in the research and development of computational tools for modelling rock mass behaviour in deep hard rock underground mines. He has implemented several numerical solvers involving the Boundary Element Method, Finite Element Method, Discrete Element Method, Material Point Method and successfully used these tools to address a wide range of real 3D mining-related research projects. These include examples of simple stress-strain modelling to more advanced coupled hydro-mechanical problems such as hydraulic fracturing preconditioning. He is also an experienced mine seismologist and understands the inner details of a mine's seismic system, network design, waveform processing, source mechanism analysis, hazard assessment, blast reentry, TARPs, and ground motion analysis.

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Itasca has announced the release of FLAC2D v9

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FLAC3D

MAXWELL DAMPING

Systems undergoing dynamic loading, such as an earthquake or explosive blast, naturally dissipate vibrational energy over time. For a dynamic numerical analysis, some form of artificial damping needs to applied so that the model should reproduces such energy losses.

FLAC3D 9 introduces Maxwell dynamic damping for time-domain seismic deformation analyses. FLAC3D models using Maxwell damping can be 10-200 times faster, and as accurate, than those models using Rayleigh damping. With Maxwell damping, large, 3D site response and soil-structure interaction are now practical to analyze.

SOIL STRUCTURE INTERACTION

For example, the FLAC3D 9 model shown below simulates a caisson foundation, using shell elements, which is much stiffer than the surrounding soils. This model consists of nearly 100,000 zones and over 15,000 structural shell elements.

An analysis of a 30-second earthquake input time history for this model, using a typical computer, requires approximately 10 hours using Maxwell damping, whereas it would require more than 50 days when Rayleigh damping was used. In other words, using Maxwell damping, the calculation is 120 times faster for this model. This is a substantial benefit for similar practical projects.

FLAC3D soil structure interaction model subjected to an earthquake. Displacements are exaggerated using a deformation factor of 20,000x.

RAMBERG-OSGOOD HYSTERETIC DAMPING

The Ramberg-Osgood model has also been added as one of several hysteretic damping calculations for dynamic modeling. The Ramberg-Osgood hysteretic model overcomes the shortcoming of overly large damping at large shear strains by other available hysteretic damping models in FLAC3D. Hysteretic damping may be preferred where: (1) designers and licensing authorities do not accept fully nonlinear simulations and (2) faster model run times are desired, as additional damping (e.g., Rayleigh) may not be necessary.

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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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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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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