- RFEM 6 | Students | Introduction to Reinforced Concrete Design
- RFEM 6 | Students | Introduction to Reinforced Concrete Design
- RFEM 6 | Students | Introduction to Reinforced Concrete Design
- RFEM 6 | Students | Introduction to Reinforced Concrete Design
- RFEM 6 | Students | Introduction to Reinforced Concrete Design
- Most Frequently Asked Questions Answered by Dlubal's Support Team | September, 2022
- Most Frequently Asked Questions Answered by Dlubal Support Team | September 2022
- RFEM 6 | Students | Introduction to Reinforced Concrete Design
- RFEM 6 | Students | Introduction to Reinforced Concrete Design
- RFEM 6 | Students | Introduction to Reinforced Concrete Design
- RFEM 6 | Students | Introduction to Reinforced Concrete Design
- RFEM 6 | Students | Introduction to Reinforced Concrete Design
- RFEM 6 for Students | Introduction to Reinforced Concrete Design | May 19, 2022
- Most Frequently Asked Questions Answered by Dlubal Support Team | September 2022
- Online Training | RFEM 6 | Students | Introduction to Reinforced Concrete Design | 12.12.2022
- RFEM 6 for Students | Introduction to Reinforced Concrete Design | May 17, 2023
- RFEM 6 for Students | Introduction to Reinforced Concrete Design | November 23, 2023
- RFEM 6 for Students | Introduction to Reinforced Concrete Design | May 8, 2024
Reinforced Concrete Beam
Number of Nodes | 3 |
Number of Lines | 1 |
Number of Members | 1 |
Number of Surfaces | 0 |
Number of Solids | 0 |
Number of Load Cases | 3 |
Number of Load Combinations | 8 |
Number of Result Combinations | 0 |
Total Weight | 2.700 tons |
Dimensions (Metric) | 8.000 x 0.000 x 0.000 m |
Dimensions (Imperial) | 26.25 x 0 x 0 feet |
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.
Various design parameters of the cross-sections can be adjusted in the serviceability limit state configuration. The applied cross-section condition for the deformation and crack width analysis can be controlled there.
For this, the following settings can be activated:
- Crack state calculated from associated load
- Crack state determined as an envelope from all SLS design situations
- Cracked state of cross-section - independent of load
In the "Deflection and Design Support" tab under "Edit Member", the members can be clearly segmented using optimized input windows. Depending on the supports, the deformation limits for cantilever beams or single-span beams are used automatically.
By defining the design support in the corresponding direction at the member start, member end, and intermediate nodes, the program automatically recognizes the segments and segment lengths to which the allowable deformation is related. It also automatically detects whether it is a beam or a cantilever due to the defined design supports. The manual assignment, as in the previous versions (RFEM 5), is no longer necessary.
The "User-Defined Lengths" option allows you to modify the reference lengths in the table. The corresponding segment length is always used by default. If the reference length deviates from the segment length (for example, in the case of curved members), it can be adjusted.
In the Concrete Design add-on, you have the option to define an existing vertically oriented punching shear reinforcement. This is then taken into account in the punching shear design.
Do you have individual column sections and angled wall geometries, and need punching shear design for them?
No problem. In RFEM 6, you can perform punching shear design not only for rectangular and circular sections, but for any cross-section shape.
What are Line Hinges and Line Releases?