„there is no performance without the use of right tools."
PROJECTS
Seismic analysis and advanced design of industrial buildings, high-rise buildings, sports stadiums, nuclear, wind and thermal power plants, off-shore and marine structures, bridges (concrete steel, cable etc.), tunnels, foundations, piles and much more.
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CAPABILITIES
User friendly and easy to learn environment to perform advanced non-linear simulations quickly and accurately project and design. Checking and design according to codes. Parametric macros and scripts with Phyton, multilanguage interface.
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BENEFITS
Increasing quality and stability of project and design solutions. Save time in the construction process by shifting.
Improve cost/ performance factors by optimising the structural material and considering a non-linear model behaviour. |
FOR PROFESSIONALS
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UNIQUE SOLUTION |
CivilFEM offers higher accuracy which is, after all, the purpose of engineering. Better precision during all steps of the construction process in structural analysis means both increased safety and enormous savings in material and construction costs.
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CivilFEM lowers the barriers to non-linear FEA for Civil, Structural and Geotechnical Engineering by combining the very advanced solver provider by Marc from MSC with a friendly easy-to-use Graphics Interface for a variety of important problems.
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Geometry modeller & CAD import/export | Automatic meshing | Cross-section and material library | Multi-language interface | Scalar and vectorial parametric modelling | Plot, list, Excel export, path and history results | Macros with Python | Static, modal, spectrum, harmonic, linear and non-linear transient analysis|Linear buckling | Non-linear contacts Glue & Friction | Springs, cables and tendons | Large deflection & strains | International codes and standards
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Non-linear evolutive construction process & material time-dependent properties | Non-linear reinforced concrete (Cracking, Crushing, Fibre reinforced, Creep and Shrinkage) | Post/ pre-stressed concrete (beam, shell and solid elements) | Geotechnical material models: Drucker-Prager, Mohr-Coulomb (C&Phi variables), Cam-Clay, Hyperbolic model (Duncan-Chang) & Hoek and Brown | Non-linear buckling | User non-linear material (strain-stress diagram definition) | Advanced non-linear contacts: Bond-slip & Cohesive-Frictional
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Includes all CivilFEM Intro capabilities
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Heat Transfer & Thermal Structural coupled analysis: Steady-state & Transient Analysis | Material temperature-dependent properties | Isotropic and orthotropic thermal conductivity | Heat conduction, convection and radiation | Thermal contacts | Seepage & Seepage-structural coupled analysis: Steady-state & Transient analysis | Orthotropic permeability properties | Flow in saturated-unsaturated soils | Rainfall, water level and drains | Fluctuating water table and transient saturated line calculation, pore water pressure and effective stress and slope stability analysis
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