Deform 3d Tutorial -

Enable Automatic Remeshing . During simulation, elements will distort heavily. Automatic remeshing instructs the solver to stop, recreate a clean mesh on the deformed shape, transfer the history data (strain, temperature), and resume solving automatically. Step 3.2: Generating the Database and Running

Select the and ensure its velocity is set to 0 across all axes (fixed tool). Step 6: Inter-Object Relations (Friction and Heat Transfer) Define how the surfaces interact when they smash together. Open the Inter-Object Relations matrix.

Ensure the Bottom_Die speed is set to zero or marked as fixed. Simulation Steps: Open the Simulation Controls menu.

Before running the "Simulation Engine," configure the time-stepping parameters: deform 3d tutorial

Used to set units, heat transfer modes, and step definitions.

Are you running a (hot forming) or strictly mechanical (cold forming) analysis? Share public link

Click the Check button to ensure there are no setup errors (e.g., unmeshed objects or missing materials). If clear, write the database ( .DB ) file. Enable Automatic Remeshing

DEFORM-3D is a powerful finite element method (FEM) simulation system used to analyze bulk metal forming, heat treatment, and machining processes. It allows engineers to predict material flow, temperature distribution, tool stresses, and potential defects without costly physical trials.

Before we dive into the tutorial, make sure you have Deform 3D installed on your computer. You can download the software from the official website or purchase it from an authorized reseller.

Once the simulation engine finishes, open the to see what happened. Step 3

Occur when two separate metal fronts meet and press against each other without fusing perfectly. This creates an internal structural crack.

This comprehensive tutorial guides you through the fundamental workflow of setting up, running, and analyzing a 3D forging simulation. 1. Understanding the DEFORM 3D Workflow