RFEM and RSTAB offer many display options in the Display Navigator. They can be completely different, depending on their function. You often have to click several times to make certain changes. If you want to optimize your work, you can create user‑defined views. In these views, you can save all specified settings. The following example illustrates this principle.
You can color the surfaces in the direction of the local z‑axis using the indicated option in the Display Navigator. By default, the side lying in the negative z-direction is colored red and the side lying in the positive z-direction is colored blue.
In RFEM and RSTAB, you can now also display and check the types of members used visually, by means of colors. To do this, an option has been integrated into the Display Navigator.
When evaluating line support forces, implausible diagrams sometimes arise at first glance. In particular, for variable loads at locations that also have a nodal support, at division points and edge locations of supported lines, the results sometimes show unexpected support reactions. Using the function of the linear smooth distribution in Project Navigator – Display does not always lead to the expected result diagram.
In order to use the working window area optimally for the graphical input of model data or for result evaluation, there are various options for arranging Project Navigator, the table, and the result panel.
When you receive an RFEM or RSTAB file for further processing, the structures will be displayed in the program using the display settings of the last editor. If the settings do not correspond to your requirements, you can simply right‑click the empty area in Project Navigator - Display and select "Dlubal Standard". This returns the settings to the default values.
During the optimization of a structure, the individual cross‑sections may have to be modified several times. This can be done very quickly using the function "Assign Graphically to Members", which is available under "Cross‑Sections" in Project Navigator – Data.
In addition to the options of Project Navigator - Display, you can modify the visibility of structures (members, surfaces, and so on) and guide objects (dimensions, comments, guidelines, and so on) in the menu and toolbar using the shortcut menus.
You can display spring members in the Display Navigator. A spring member is displayed as a helix by default. Clear the "Spring Members" check box to display them as normal lines.
Users of RFEM and RSTAB already know the advantages of various visibilities that can be used to create user‑defined areas of the structure for further editing.
Generally, RFEM automatically detects all objects lying on a surface that are not used for surface definition. Objects integrated into surfaces can be selected using the "Select Integrated Objects" option in the shortcut menu of the relevant surface in Project Navigator. This way, you can easily find in the graphics which objects have already been integrated into a surface, for example.
RFEM and RSTAB are programs where graphical input prevails. All data can be entered using dialog boxes, and the structure of the Project Navigator is optimized for input using the mouse. Nevertheless, you can always speed up the tabular input to reach your goal immediately.
The geometry data of an RFEM model are currently managed in 29 tables, so not all of the tabs are displayed at once. To open a particular table, we recommend using the navigation menu that you can open by right-clicking on any tab. A shortcut menu appears, where you can quickly access the desired input table.
If a model should contain members with elastic foundations, the contact forces and moments are displayed in numerical form in the result windows. The graphical display of results is specified by the "Members" entry in the Results Navigator.
The updated Results Navigator of RF‑JOINTS allows you to display the results of different module cases simultaneously. Thus, you can display all column base designs at the same time in order to perform collision checks of the foundations, for example.
When modeling structural systems or loads, input errors or faulty objects may occur due to subsequent modifications, displacements, and adjustments in the model.
In the RFEM and RSTAB work window, four display modes are available for the results of members. They can be selected in the Display Navigator under "Results" → "Members".
RFEM provides the option to display up to three result values of the surface results in each group. Four groups are preset under "Groups" in the Results Navigator.
In order to display the internal forces of rigid members, it is necessary to select the corresponding option under ‘Results’ → ‘Members’ → ‘Results on Couplings’ in the Display navigator.
You can document the results of RF‑CONCRETE Surfaces graphically in the printout report. To do this, the "Values on Surfaces" setting is often selected in the Results Navigator of RF‑CONCRETE Surfaces. A text bubble including a result value is displayed, and depending on the settings in the Results Navigator, it can be displayed on the surface grid points, manually defined points, or in FE mesh points.
You can display the results on surfaces in a graphic. It may be useful to use the values on surfaces. Depending on the requirements, you can reduce the number of values considerably or adjust them to cover the entire structure. However, it is important to display the values that represent the local extreme values. In addition, it is necessary to determine the local extremes. This can be done by right-clicking this function in the Navigator.
When calculating the surface reinforcement in RF-CONCRETE Surfaces, the result values for both surface sides +/- z are available. If you are unsure which side of a surface is the positive or the negative z side, you can hide the local coordinate system of each surface in the RFEM Project Navigator - Display under "Model" → "Surfaces" → "Surface Axis Systems x,y,z". In the case of complex structures, this can quickly become confusing. Displaying multiple axis systems makes it difficult to recognize the incorrect direction of a surface, for example (see the figure on the top).
Just as in the RFEM Display Navigator, you can set the distribution of internal forces in surfaces in RF‑STEEL Surfaces. Since deformations are always the result of the FEM calculation, the corresponding forces will be recalculated. This means that the internal forces on an FEM element are calculated depending on the composition (triangular or square) in three or four places. In order to obtain continuous internal forces and thus a smoothed distribution, these internal forces have to be interpolated. Interpolation is done by selecting the "Distribution of internal forces" option in the surfaces.