- Extensive library of rolled, parametric thin-walled and thick-walled cross-sections
- Extensible library for material properties
- Import of dxf files
- Cross-section properties of thin-walled or thick-walled cross-sections
- Ideal section properties of cross-sections consisting of different materials
- Stress analysis
- Plastic capacity design with interaction of internal forces according to the Simplex Method
- Design of reinforcement and the subsequent design of concrete cross-section in the Concrete Design add-on (see Product Feature)
- Saving cross-sections as a block
- Scripting with JavaScript
- Interface with MS Excel for exporting tables
- Connection to Webservice & API (for example, optional creation of cross-section and access to result tables)
- Printout report
RSECTION | Features
In RFEM, you can generate surfaces from members with the library cross-sections as well as from the members with the RSECTION cross-section.
Mia is accessible in the programs and prevents the hassle of following up by email or phone.
You can open the cross-sections in RSECTION using a direct connection, modify them there, and transfer them back to RFEM/RSTAB. Both RSECTION cross-sections and library cross-sections, with the exception of elliptical, semi-elliptical and virtual joists, can be opened and modified directly in RSECTION by clicking a button.
For example, you can thus adjust the reinforcement layout of user-defined RSECTION cross-sections directly in a local RSECTION environment in RFEM/RSTAB. This feature is currently only available for cross-sections with a uniform distribution type. The shear and longitudinal reinforcement defined for library cross-sections is not imported into RSECTION.
Within the "Plastic capacity design | Simplex Method" in RSECTION, the simultaneous variation of shear stresses over the cross-sectional area is performed in addition to the variation of axial stresses. This extended form of analysis allows you to use redistribution reserves, especially for the cross-sections subjected to shear loading, thus loading the cross-sections even more efficiently.
Go to Explanatory Video