| Step | Time | Action | | :--- | :--- | :--- | | 1 | 2 min | Create 5x5 grid @ 5m spacing. | | 2 | 3 min | Define C30/37 concrete. Draw columns. | | 3 | 5 min | Draw primary beams (Span-to-depth ratio = ~15). | | 4 | 3 min | Generate slabs (Linear elastic analysis required). | | 5 | 2 min | Apply Dead + Live (3 kN/m² + 1.5 kN/m² partition). | | 6 | 5 min | Generate Wind using Wizard (Velocity pressure = 1.0 kN/m²). | | 7 | 3 min | Generate automatic combinations (6 ULS + 3 SLS). | | 8 | 4 min | Mesh (Fine setting) + Calculate (Direct Solver). | | 9 | 3 min | Check Max deflection. Check Max moment. | | 10 | 2 min | Export summary report (PDF) with diagrams. | This "Graitec Advance Design tutorial" has given you the skeleton of the workflow. The mastery comes from knowing when to use non-linear analysis for buckling, or how to model semi-rigid connections in steel.
In the world of structural engineering, Finite Element Analysis (FEA) software is the bridge between an architect’s vision and a safe, buildable reality. While many engineers default to legacy software, Graitec Advance Design has emerged as a powerful, BIM-oriented rival, offering exceptional speed for concrete and steel design. graitec advance design tutorial
Save this guide, open the software, and build your first frame today. The only way to fail at FEA is to never run the first calculation. Did this tutorial help you solve a specific modeling issue? Ensure your software version is up to date (2024 or 2025), as Graitec frequently updates the meshing algorithm and Eurocode NAD (National Annexes). | Step | Time | Action | |