XFEM4U: Difference between revisions
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===Geometry=== | ===Geometry=== | ||
* Point, line, surface supports | * Point, line, surface supports | ||
* Pinned, fixed, (rotational) spring | * Pinned, fixed, (rotational, strain) spring | ||
* Beams | * Beams | ||
* [[Plates]] | * [[Plates]] | ||
Line 49: | Line 49: | ||
* Forced node displacement | * Forced node displacement | ||
* Surface load can be used for load distribution to beams | * Surface load can be used for load distribution to beams | ||
* Use of the local or global coordinate system | |||
===Interface=== | ===Interface=== | ||
Line 91: | Line 92: | ||
===Results & Reporting=== | ===Results & Reporting=== | ||
* Internal forces of beams(M,V,N) | * Internal forces of beams(M,V,N) | ||
* Reaction | * Reaction forces | ||
* Envelop | * Envelop forces and stresses | ||
* Flat representation or 3D Isosurfaces | * Flat representation or 3D Isosurfaces | ||
* [[Plate stresses/forces]](σ-x,σ-y,τ-xy,σ-von Mises, nxx, nyy, nxy, mxx, myy, mxy, vx, vy, Mudx, M'udx, Mudy, M'udy, Asxb, Asxt, Asyb, Asyt, Asxb_extra, Asxt_extra, Asyb_extra, Asyt_extra, Asw, m1, m2, v0, Traj-m, Traj-v, Soil pressure) | * [[Plate stresses/forces]](σ-x,σ-y,τ-xy,σ-von Mises, nxx, nyy, nxy, mxx, myy, mxy, vx, vy, Mudx, M'udx, Mudy, M'udy, Asxb, Asxt, Asyb, Asyt, Asxb_extra, Asxt_extra, Asyb_extra, Asyt_extra, Asw, m1, m2, v0, Traj-m, Traj-v, Soil pressure) |
Revision as of 18:20, 27 May 2022
XFEM4U is the MOST intuitive structural analysis and design software for 3D models of any structure. Consider, for example, a calculation of 3D frameworks in steel and/or wood, concrete beam grids, foundation slabs on an elastic soil, point-supported concrete flat slabs, walls, and so on. Whether or not combined in one model.
It is developed in close cooperation with the users of the software.
Features
Geometry
- Point, line, surface supports
- Pinned, fixed, (rotational, strain) spring
- Beams
- Plates
- Gridlines XYZ
- Outer Panel
- Layers
- Dimension
- Copy, move, delete, rotate
- Copy including loads
- Mirror
- Multiple copies
- Renumber
- Find
- Snap
- Navigating in 3D using Revit or Tekla Style
- 3D Mouse(By example 3D Connection) is supported
- Solid view/Line view
- Perspective, Orthographic
- Screenshot
- Zoom extents
- Zoom selection
- Hall Wizard
FEM/Solver
- 3D Finite Element Method(FEM)
- New powerful matrix/equation solver written in C#
- Modern powerful meshing tool
- Create local mesh refinements
- Used hybride element type is based on the latest insights from engineering science.
- Geometric Linear(GL) and Geometric Non-Linear(GNL) second order calculation
- Physic Linear for Concrete, Steel and Wood
Loads
- Load Cases/Combinations user defined or using the Eurocode
- Beam load, plate load, free surface load, node load, free point load
- Forced node displacement
- Surface load can be used for load distribution to beams
- Use of the local or global coordinate system
Interface
- Multiple languages are available: English, German, Spanish, Italian, Norwegian, French and Dutch
- CAD like user interface intuitive modern and fast
- Colors, text height fully customable
- 3D OpenGL Graphics
Standards
- Eurocodes are integrated where applicable
- Dutch, German, UK, Belgium and Italian National Annex of the Eurocodes are integrated
- Partial factors are based on consequence class and NA
- Imperfection in 2 directions
- Dutch specific features:
- NEN 8700 integration
- Old rebarsteeltypes(FeB220,FeB400) are integrated
- Earthquake calculations using the NEN-NPR 9998
Concrete
- Calculation of concrete beams using the Eurocode EN 1992-1-1
- Checks ULS and SLS
- FEM Calculation of reinforcement in plates based on all internal forces(M,N,V) using the latest scientific insights.
- Using the 3-layer model
- Shearforce reinforcement in plates is calculated as well
Steel
- Integrated Eurocode EN 1993(class 1-3 profiles)
- Global buckling stability check using GNL(Second-order analysis)
- Steel optimization module
- ca 2700 different steelprofiles integrated.
- Built-up section
- Deflection check including pre-camber
- Integrated steel connection module. Beam-column moment connection can be calculated and the trilinear rotational rigidity diagram is used for the momentdistribution
- Tapered sections
Timber
- Calculation of timber columns/beams using Eurocode
- Global buckling stability check using GNL(Second-order analysis)
- Climateclasses are integrated
- Tapered sections
Results & Reporting
- Internal forces of beams(M,V,N)
- Reaction forces
- Envelop forces and stresses
- Flat representation or 3D Isosurfaces
- Plate stresses/forces(σ-x,σ-y,τ-xy,σ-von Mises, nxx, nyy, nxy, mxx, myy, mxy, vx, vy, Mudx, M'udx, Mudy, M'udy, Asxb, Asxt, Asyb, Asyt, Asxb_extra, Asxt_extra, Asyb_extra, Asyt_extra, Asw, m1, m2, v0, Traj-m, Traj-v, Soil pressure)
- Different useful options for output selection
- Create Bill of materials of beams
Import/Export
- Import of DWG/DXF, xml,sndf
- Export of xml, sndf, txt
- Import/Export to Revit/Dynamo, Tekla using xml interface
- Export to pdf, rtf
Videos
Below a number of Quickstart videos from our YouTube Channel: