Positioned on the right, this contextual panel displays and allows you to edit the geometric, material, and structural properties of any selected element.
Navigating the user interface efficiently is key to a fast workflow. Advance Design uses a logical, ribbon-based layout structured around the lifecycle of a project. Understanding the Workspace
: Ensure your project units (kN, m, mm) are consistent at the start.
Comprehensive Guide to Graitec Advance Design: A Step-by-Step Tutorial for Structural Engineers graitec advance design tutorial
: Define your localization (e.g., Eurocodes, North American codes) to ensure the software uses the correct material libraries and safety factors.
What are you primarily designing with? (e.g., reinforced concrete , structural steel , or timber )
Define materials (e.g., C25/30 concrete or steel grades) and cross-sections for beams, columns, and slabs. CAD Tools: Use commands like to build the geometry. ⚡ Phase 2: Analysis & Optimization A report is only as good as the underlying data. Advance Design Tutorial - Graitec Positioned on the right, this contextual panel displays
: A dynamic panel that displays and allows editing of geometric, material, and structural properties for any selected element.
: Assign boundary conditions such as fixed, pinned, or elastic supports to nodes or lines.
: Use the Graitec BIM Connect or standard IFC formats to import complete models directly from Autodesk Revit or Advance Steel. Understanding the Workspace : Ensure your project units
Reports are dynamic—they update automatically when changes are made to the model. Summary of Key Steps in the 3D environment using CAD tools. Define loads and create ULS/SLS combinations. Mesh and run FEA Analysis . Optimize steel and concrete using dedicated modules. Generate results reports.
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.