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PLAXIS 3D includes the most essential functionality to perform everyday deformation and safety analysis for soil and rock. This comprehensive software for the design and analysis of soils, rocks, and associated structures makes it easy to model in full 3D.
Easily generate and scale construction sequences for excavations. Facilitate steady-state groundwater flow calculations, including flow-related material parameters, boundary conditions, drains, and wells. Use interfaces and embedded pile elements to model movement between soil and foundation, such as slipping and gapping. Get trustworthy results with realistic soil models and a complete portfolio of visualization abilities.
To meet the unique geotechnical challenges of soil structure interactions, PLAXIS 3D offers different calculation types, such as Plastic, consolidation, and safety analysis. A range of material models for predicting the behavior of various soils and rock types, combined with robust calculations, helps ensure reliable results. You can display these forces in various ways and use cross-section applications to inspect certain areas in greater detail.
PLAXIS 3D Advanced includes everything that is included in PLAXIS 3D, plus it further enhances your geotechnical design capabilities with more advanced features and material models. You can consider creep or flow-deformation coupling through consolidation analysis. Additionally, you can solve your problems faster than PLAXIS 3D with the multicore solver.
PLAXIS 3D Ultimate extends the capabilities of PLAXIS 3D Advanced so you can analyze the effects of vibrations in the soil, like earthquakes and moving traffic loads. You can also simulate complex hydrological conditions through time-dependent variations of water levels or flow functions on model boundaries, as well as soil boundaries.
PLAXIS 3D Ultimate is an easy-to-use software that is suited for more advanced seismic analysis. When you need something that goes beyond the low-frequency vibrations, this is the choice for you. You can:
With PLAXIS 3D LE you can model and analyze geo-engineering projects for limit equilibrium slope stability analysis and perform finite element analysis of groundwater seepage in unsaturated or saturated soils.
PLAXIS is a computer application that performs finite element analyses (FEA) within the realm of geotechnical engineering, including deformation, stability and water flow. The name PLAXIS comes from Plastic and AXISymmetry, indicating the geometric types handled in the original code of the software application.
By applying interface elements PLAXIS users can simulate the interaction between a structure and soil. While without an interface no relative displacement (slipping/gapping) will be possible between structure and soil.
If you want to receive tailored training or attend a PLAXIS 3D course that is specific to your project requirement, Bentley offers extra training and mentoring services. You can choose from tailor-made training, on-demand learning, consulting services, mentoring and more. Learn more about Expert Services here.
A perpetual license of Bentley software is a one-time purchase, with a yearly maintenance subscription, called SELECT. This includes 24/7/365 technical support, learning resources, and the ability to exchange licenses for other software once a year. With SELECT, you will benefit from:
For larger organizations with in-depth requirements, we offer plans to provide global pricing and access to our comprehensive portfolio of solutions and success plan services. Contact us about how to get access to software, global best practices, implementation services, training, and technical support to help your organization realize its full potential while addressing your unique needs.
Get more out of PLAXIS by understanding and using advanced soil models as HSsmall and Soft Soil Creep and learn the advantages of 3D modelling for shallow, piled and piled raft foundation. Join the optional 4th day on Modelling Rock and Tunnels in PLAXIS.
Participants can choose to attend the 3-days advanced course or the full 4 days of advanced course, including the extra day on rock and tunnels. Participants may also attend only* the day on rock and tunnels.
To ensure a quality training experience for all participants, course groups remain small. Once the registration limit is reached, additional registrants will be added to a waitlist and notified if a spot becomes available
Helmut obtained his Ph.D. from the University College of Swansea, UK and has taught for many years courses on Advanced Soil Mechanics and Computational Geomechanics at the Graz University of Technology, Austria. He has over 35 years of experience in development and application of the finite element method in geotechnics.
Thomas worked several years as field geophysicist, structural-, and geotechnical engineer before he got into constitutive modelling of geo-materials. As part of his Ph.D. thesis he developed the HSsmall model, a small-strain extension of the Hardening Soil mode before moving to NTNU. Nowadays he is fully focused on running his own company specialised in numerical geotechnics.
Yasser has been a researcher and consultant since over 25 years. He has a wide experience by the design and construction of raft and piled raft foundations of high-rise buildings and bridge foundation. He was also involved in many projects dealing with stability of landslides, soil improvement, rock fall hazards and tunnelling. In 2009 Yasser become professor of structural engineering at Ain Shams University in Cairo.
Martino studied at the University of Parma, where he got a PhD in Geotechnical Engineering in 2005. After moving to Stuttgart for a Post-Doc, he worked on the development of constitutive models for creep in soft soils and then, in 2009, he founded the company WeSI Geotecnica together with his brother Lorenzo. As of 2017, he is Adjunct Professor at the University of Genoa.
Dennis obtained a Master's degree in Civil Engineering at Delft University of Technology before he joined PLAXIS in 1996 as a programmer. He has been involved for several years in the development of new PLAXIS products before shifting his main field of activity to user support and lecturing courses in 2002. Since 2006 he is the international course coordinator, a position he continued to fulfil when PLAXIS joined Bentley Systems in 2018 and Seequent in 2021. From 2020 Dennis is now also responsible for the technical documentation of PLAXIS.
PLAXIS Monopile Designer is a finite element software for monopile foundations. It transfers the results of the PISA Joint Industry Research Project to daily engineering practice. PLAXIS Monopile Designer reduces the amount of steel each monopile requires and therefore reduces overall costs for any wind farm. It can be used as a stand-alone tool or in connection with PLAXIS 3D.
Significantly optimize the designs for your monopile foundation project. This will reduce overall steel, fabrication, transportation, and installation costs. You could reduce the embedded length of piles by up to 35%.
Use PLAXIS Monopile Designer along with PLAXIS 3D to easily automate the process of generating and calculating 3D models. Derive, normalize, and parameterize soil reaction curves to calibrate your 1D model.
Combine multiple sets of soil reaction curves, either rule-based or numerically calibrated from homogeneous soil profiles, to conduct 1D analyses of monopiles in layered soil in accordance to the findings of PISA Phase 2.
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