- IMPORT DATA FROM PLAXIS 2D WINDOWS 10
- IMPORT DATA FROM PLAXIS 2D WINDOWS 7
- IMPORT DATA FROM PLAXIS 2D FREE
With plastic, consolidation and safety analysis calculation types, a broad range of geotechnical problems can be analyzed. Automatically mesh to create a finite element mesh almost immediately.Īccurately model the construction process by activating and deactivating soil clusters and structural elements in each calculation phase with staged construction. Define everything from complex soil profiles or geological cross-sections to structural elements, such as piles, anchors, geotextiles, and prescribed loads and displacements. Engineering companies and institutions in the civil and geotechnical engineering industry count on PLAXIS for a variety of projects.įrom excavations, embankments, and foundations to tunneling, mining, and reservoir geomechanics, engineers rely on PLAXIS as their go-to finite element analysis application.Įfficiently create models with a logical geotechnical workflow. Large projects may require more.Perform two-dimensional analysis of deformation and stability in geotechnical engineering and rock mechanics. Large projects may require significantly more space on both partitions.įor best performance, ensure that the TEMP directory and the project directory reside on the same partition.
IMPORT DATA FROM PLAXIS 2D FREE
ProcessorĪt least 2 GB free space on the partition where the Windows TEMP directory resides, and 2 GB free space on the partition where projects are saved. Plaxis strongly recommends avoiding simple onboard graphics chips in favour of a discrete GPU from the nVidia GeForce or Quadro range with at least 128 bit bus and 1 GB of RAM, or equivalent solution from ATI/AMD. PLAXIS 3D 2016 requires a 64-bit operating system at the minimum USB Portġ port required for USB licence Graphics card
IMPORT DATA FROM PLAXIS 2D WINDOWS 7
Recommended: Windows 7 Professional 64-bit (all with latest service packs applied)
IMPORT DATA FROM PLAXIS 2D WINDOWS 10
Windows 7 Professional, Windows 8 Professional, Windows 10 Pro To reduce spurious reflections of waves reaching the model boundaries, free-field and compliant base boundaries can be selected. For the benefit of 1D site response analysis, the tied degrees of freedom boundary conditions are available in PLAXIS 2D. Dynamic multipliers can be assigned independently in the x- and y-directions.ĭynamic analysis in some cases also requires some special boundary conditions. Via table input users can import real earthquakes signals, in order to perform meaningful seismic design, of for example jetties or foundations. The time dependent behaviour of the load can be assigned through harmonic, linear or table multipliers. In modelling the dynamic response of a soil structure the inertia of the subsoil and the time dependency of the load are considered. For soils other than liquefaction susceptible sand, the (Generalized) Hardening soil model with small strain stiffness generally offers a good choice. This model calculates excess pore pressure build-up during dynamic excitation. Models especially useful in dynamic analysis are for example the UBC Sand model in order to predict liquefaction. PLAXIS helps users to perform dynamic analyses in a user friendly, efficient and accurate way.Īpply simple and advanced constitutive modelsĪll material models contain extra parameters, which take into account damping due to material and/or geometry. The effects of vibrations have to be calculated with a dynamics analysis when the frequency of the dynamic load is in the order or higher than the natural frequency of the medium. Low frequency vibrations can normally be calculated with a pseudo-static analysis, by default available in PLAXIS, however for more advanced seismic analysis the Dynamics module is required. When pseudo-static analysis is not enough With the Dynamics module PLAXIS can analyse the effects of vibrations in the soil. The source of natural vibrations in the subsoil is earthquakes. Vibrations may occur either man-made or natural. When loads are powerful, like for example earthquakes, they may cause severe damages. Soil and structures are often not only subjected to static loads due to construction in and on the ground surface but also to dynamic loads. 2D Dynamics is an add-on module to PLAXIS 2D.