Model to Download
Model created by the technical team of Dlubal Latam. Model can be also available as parametrized block at Dlubal Latam site.
Structures are three-dimensional in reality; however, they can be simplified and analyzed as 2D or 1D models. The model type has a crucial influence on how the structural components are stressed, and it should be defined prior to modeling and calculation. The model types available in RFEM 6 are shown in Image 1.
- Is it possible to design a spherically curved glass pane in RF‑GLASS?
- Which stresses are most important for glass design consideration when using RF-GLASS?
- Where can I find the details of a layer composition in the RF‑GLASS add-on module?
- I would like to design a glass pane with temperature loads. In this case, a message appears saying that the load case includes the "temperature" surface loads types that are not transferred to the created temporary model. How can I consider the temperature loads?
- In the calculation parameters of a load case or load combination, it is possible to activate various stiffness factors. What exactly is behind this?
- Are there any programs or add-on modules specially developed for glass structures?
- When calculating a curved surface in RF‑GLASS, I get a message saying that the surface has more than 4 boundary lines and thus no layered FE mesh can be used. How can I avoid this message?
- Why is not there one load for each country in the online service "Geo-Zone Tool: Snow, Wind, and Seismic Zone Maps"?
- Is it possible to design insulating glass using the RF-GLASS add-on module?
- Does the activation of the partial safety factor GammaM have an effect on the calculation in RF‑GLASS?