FAQ 004230 EN
- Structural FEA Software RFEM
- Structural Frame Analysis Software RSTAB
- Add-on Module RF-/STEEL for RFEM or RSTAB
- Add-on Module RF-PIPING for RFEM
- Add-on Module RF-PIPING Design for RFEM
- Add-on Modules for Steel Structures
- Add-on Module RF-/DYNAM Pro for RSTAB or RFEM
- Request Quote or Callback from Sales Representative
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For the stability design of members and sets of members with a uniform cross-section, you can use the equivalent member method according to EN 1993-1-1, 6.3.1 to 6.3.3. However, as soon as a tapered cross-section is available, this method can no longer be used or only to a limited extent.
Depending on stiffness, mass, and damping, structures react differently to wind action.
- In connection with the calculation according to the large deformation analysis, I get significantly smaller deformations than for the calculation according to the linear static or second-order analysis. How is this possible?
- How is it possible to consider the real cross-section geometry of member elements in RWIND Simulation?
- Is it also possible to simulate an external steel structure in RWIND Simulation?
- My aim is to mesh a circular hole plate in a mapped way. Is such a meshing possible in RFEM?
- Why are my cross-sections defined in RFEM not imported to REVIT?
- Why are the tolerance zones between the zone borders 5 km wide on the online snow load map of Austria?
- How do I get the largest column load in my RFEM 3D model?
- I would like to calculate a hall frame with loads from a crane runway. It is not quite clear for me, what denote the various action categories. Can you explain it to me?
- How can I create a drilled beam in RFEM?
- How can I additionally model welds for the connection of two surfaces with a contact solid?
Structural engineering software for finite element analysis (FEA) of planar and spatial structural systems consisting of plates, walls, shells, members (beams), solids and contact elements
The structural engineering software for design of frame, beam and truss structures, performing linear and nonlinear calculations of internal forces, deformations, and support reactions