Result Superposition of Different Construction Stages
SUPER-RC | Features
- Management of RSTAB models according to construction progress
- Definition of geometric boundary conditions for individual construction and operational conditions
- Access to load cases, load combinations, and result combinations of all structures
- Superposition of the different models in the form of an envelope of all extreme values
- Combination options according to the following standards:
- Eurocode
- DIN 18800:1990-11
- DIN 1045:1988-07
- DIN 1045-1:2008-08
- DIN 1052:1988-04
- to DIN 1055-100:2001-03
- ÖNORM
- Serviceability (unscaled)
- Tabular and graphical result display
SUPER-RC | Input
A basic model is created and saved under different names depending on the construction progress. These structural models are then used for the supercombination. The superpositioning can be performed in the same way as for an RSTAB result combination.
By modeling various construction or operational conditions, different geometric boundary conditions can be represented: It is possible to add or remove supports, members, or elastic foundation of the model, for example.
SUPER-RC | Superposition
For superpositioning, it is necessary to select one of the integrated standards. The partial safety factors are preset by default. It is also possible to create a new standard and to save it with the user-defined safety factors.
The combination criterion defines which load cases, load combinations, or result combinations are to be considered by which model. The actions can be scaled by factors and classified as 'permanent' or 'potentially'. Alternative examinations in the form of a 'or' superposition are also possible. Graphic representations facilitate the allocation of the relevant models.
When determining extreme values, SUPER-RC imports the results of structures and superimposes them according to the combination criterion. The results are compared using the member and node numbers.
SUPER-RC | Results
The maximum and minimum extreme values (the envelope) are displayed in result tables and graphics. It is possible to add them to the global RSTAB printout report.
You can also design the internal forces of super combinations in many RSTAB add-on modules.
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Implemented Standards for Reinforced Concrete Design
Standards for Concrete Design
Annexes for EN 1992-1-1
RFEM and RSTAB models can be saved as 3D glTF models (*.glb and *.glTF formats). View the models in 3D in detail with a 3D viewer from Google or Babylon. Take your VR glasses, such as Oculus, to "walk" through the structure.
You can integrate the 3D glTF models into your own websites using JavaScript according to these instructions (as on the Dlubal website Models to Download).
With the Camera Fly Mode view option, you can fly through your RFEM and RSTAB structure. Control the direction and speed of the flight with your keyboard. Additionally, you can save the flight through your structure as a video.
The direct interface with Revit allows you to update the Revit model according to the changes you have made in RFEM or RSTAB. Depending on the modification, the Revit objects may have to be regenerated (deleting the object and subsequent regeneration). The regeneration is performed on the basis of the RFEM/RSTAB model.
If you want to avoid this regeneration, activate the check box 'Update only materials, thicknesses, and sections'. In this case, only the properties of the objects will be adjusted. Changes different from those in material, surface thickness, and section are, however, not considered in this case.
The reinforcement proposal from RF-/CONCRETE Members can be exported to Revit. The rectangular and circular cross-sections are currently supported.
The reinforcement bars can be modified retroactively in Revit.