Unlike CAD software where you have a single part, DEFORM views the world as a collection of . An object can be:
Enter a project name (avoid spaces; use underscores instead). Select as your system type and click Create . Step 2: Defining the Process Simulation Engine In the main window, click on the Pre-Processor icon. Go to Simulation Controls (the gears icon).
Set the relationship type to (where the rigid die is the master and the plastic workpiece is the slave). deform 3d tutorial
Select the Workpiece object, click > Import , and select your 3D CAD file (typically in .STL , .STEP , or .IGS format). Repeat the import process for the Top_Die . Step 4: Material Assignment and Mesh Generation
The solver calculations run in the background. It solves the non-linear plastic deformation equations iteratively. Unlike CAD software where you have a single
: Assign material properties (e.g., Stainless Steel 316 or H-13 for dies) from the library. Boundary Conditions
Always marry (align) your dies to the workpiece in your CAD software. Move objects in DEFORM only as a last resort, as it can cause penetration issues. Step 2: Defining the Process Simulation Engine In
Browse the standard DEFORM library to select your material (e.g., AISI-1045 Steel or Ti-6Al-4V). Drag and drop the material onto your workpiece.
Once the simulation finishes (usually 5–15 minutes for 200 steps), you enter .
Use the Flaw Tracking or Fringe tools to see if the material folds in on itself during deformation, which creates weak lap joints in the finished component. 8. Best Practices for Troubleshooting Common Errors
Deform 3D is a powerful software used for 3D modeling, animation, and rendering. In this tutorial, we will cover the basics of Deform 3D and guide you through a step-by-step process to create a simple 3D model.