This model illustrates the visualization of result values on surfaces of a concrete slab. Surface plots and additional text bubbles are used to intuitively identify different results. The graphical display of the model highlights the structure and results using clear colors and defined areas. The presentation of the structural component supports the practical use of result visualization elements in the application area. The integrated image information also provides a precise impression of the realistic arrangement of the structural elements.
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Concrete Slab with Result Display
| Number of Nodes | 4 |
| Number of Lines | 4 |
| Number of Surfaces | 1 |
| Number of Load Cases | 1 |
| Number of Load Combinations | 4 |
| Number of Result Combinations | 4 |
| Total Weight | 2.500 t |
| Dimensions (Metric) | 5.000 x 1.000 x 0.000 m |
| Dimensions (Imperial) | 16.4 x 3.28 x 0 feet |
| Program Version | 5.25.01 |
You can download this structural model to use it for training purposes or for your projects. However, we do not assume any guarantee or liability for the accuracy or completeness of the model.
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The RF‑/STEEL EC3 add-on module automatically transfers the buckling line to be used for the flexural buckling analysis for a cross-section from the cross-section properties. The assignment of the buckling line can be adjusted manually in the module input for general cross-sections in particular, as well as for special cases.
This technical article deals with the design of structural components and cross-sections of a welded truss girder in the ultimate limit state. Furthermore, the deformation analysis in the serviceability limit state is described.
This technical article deals with the stability analysis of a roof purlin, which is connected without stiffeners by means of a bolt connection on the lower flange to have a minimum manufacturing effort.
This technical article analyzes the effects of the connection stiffness on the determination of internal forces, as well as the design of connections using the example of a two-story, double-spanned steel frame.
Want to automatically consider steel joint stiffness in your global RFEM model? Utilize the Steel Joints add-on!
Activate joint-structure interaction in the stiffness analysis of your steel joints. Hinges with springs are then automatically generated in the global model and included in subsequent calculations.
In the ultimate configuration of the steel joint design, you have the option to modify the limit plastic strain for welds.
The "Base Plate" component allows you to design base plate connections with cast-in anchors. In this case, plates, welds, anchorages, and steel-concrete interaction are analyzed.
In the "Edit Section" dialog box, you can display the buckling shapes of the Finite Strip Method (FSM) as a 3D graphic.
I am designing a set of members using the equivalent member method in RF‑/STEEL EC3, but the calculation fails. The system is unstable, delivering the message "Non-designable - ER055) Zero value of the critical moment on the segment".
What could be the reason?
What could be the reason?
Why are the equivalent member design checks grayed out in the Stability tab when activating the plastic design using the partial internal force method (RF‑/STEEL Plasticity)?
In connection with a calculation according to the large deformation analysis, I get significantly smaller deformations than for a calculation according to the linear static or second-order analysis. How can that be?
How does the activation of the precamber imperfection work?
Are the models and presentations from Info Day 2020 freely available, and can you send them to me?
Why do I get large differences in the results, both for the deformation and the bending moments, when applying the inclination via imperfection to a single member and an articulated set of members with the same total length?
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