The photorealistic rendering of the model (optionally with textures) always provides immediate control of the input. Display colors can be freely adjusted and saved separately for screen and printout.
The coefficient θ is calculated as follows:$$\mathrm\theta\;=\;\frac{\displaystyle{\mathrm P}_\mathrm{tot}\;\cdot\;{\mathrm d}_\mathrm r}{{\mathrm V}_\mathrm{tot}\;\cdot\;\mathrm h}\;$$
Mia is Dlubal's AI assistant, available on our website and also directly in the RFEM, RSTAB, and RSECTION programs.
- Empowered by concentrated knowledge
- The chatbot is trained using the knowledge from the Dlubal website and the ChatGPT 4.0 language model. This means Mia can assist you with any questions regarding the Dlubal software and structural engineering.
- Quick and easy
- Mia is available directly in the programs and saves you the hassle of following up by email or phone.
- It's that simple':
- In the programs: Click the Mia avatar at the bottom right to open the chat mode.
- On the Dlubal website: To chat with Mia, click on the avatar at the bottom right of the Dlubal website, or visit the special page: Mia – Your AI Assistent
Using the "Dashpot" member type, you can define a damping coefficient, a spring constant, and a mass. This member type extends the possibilities within the Time History Analysis.
With regard to viscoelasticity, the "Dashpot" member type is similar to the Kelvin-Voigt model, which consists of the damping element and an elastic spring (both connected in parallel).
For calculation diagrams, the "2D | Hinge" is available. These hinge diagrams show the hinge response of load situations for nonlinear hinges.
For calculations with several load situations, such as is the case with pushover analyzes and time history analysis, you can evaluate the state of the hinge in each load step.
For line support results, you can optionally display certain additional information in info bubbles, such as description, sum, mean value, and so on.
If necessary, you can activate the info bubbles in the Navigator – Results.