Deform 3d Tutorial ((exclusive)) -

Most tutorials follow a standardized 3-step pipeline to move from a CAD model to a completed simulation: 1. Pre-Processing (Setup)

The pre-processor is where you define the physical environment of the simulation.

Set the opposing tool (Bottom Die) to by keeping its velocity at zero. Inter-Object Contact and Friction

Center the workpiece at the origin (0, 0, 0) to simplify symmetry setups. 3. Geometry Cleanup Checklist deform 3d tutorial

Unlike general FEA software (like ANSYS or Abaqus), DEFORM-3D is specialized for large deformation, material non-linearity, and complex contact conditions typical of metal forming. 2. Setting Up the Project (Pre-Processing) The first step is setting up the simulation environment. and start a new project.

In standard "Deform 3D," dies are rigid. In module:

For heat treatment simulations, analyze temperature‑time profiles and phase transformation kinetics. For machining simulations, evaluate chip formation and cutting forces. Most tutorials follow a standardized 3-step pipeline to

For aerospace parts, you need to predict recrystallization.

+---------------------+ +---------------------+ +---------------------+ | Pre-Processor | ---> | Simulation | ---> | Post-Processor | | Geometry, Meshing, | | Solver Engine | | Stress, Strain, | | Boundary Conditions | | (Running calculation)| | Grain Flow Analysis | +---------------------+ +---------------------+ +---------------------+

Apply (local refinement zones) around areas with tight radiuses or complex geometries where intense material shearing is expected. Inter-Object Contact and Friction Center the workpiece at

Let's put these deformation techniques into practice. Follow these steps:

Define the : Choose Constant Velocity for hydraulic presses, Mechanical Crank for mechanical presses, or Screw Press depending on your real-world equipment.

Once inside the Pre‑Processor, you will see tabs and buttons for geometry, mesh, material, simulation controls, and object relationships.