Simufact
Industrial Metal Forming or Joining processes form the backbone of various Industrial or Automotive Applications and play a decisive role in achieving a quality and cost effective product.
As All Manufacturing processes are costly and need to be first time correct , necessitates the importance of Validation Solutions.
Simufact Software Solutions cover a large number of metal working and metal processing production processes to validate Sheet Forming, Joining & Additive Manufacturing.
Simufact Portfolio :-
- Simufact Welding
- Simufact Forming
- Simufact Additive.
Simufact Welding
Simufact Welding enables the simulation of welding processes.
Simufact Welding realistically predicts distortions and residual stresses that occur during welding and helps minimize them.
Validation of Welding Process allows the user detect welding mistakes, such as hot cracks & Deflections. The software supports the development of the optimal clamping device for the welding process and assists in laying out the best welding sequence. Simufact Welding predicts the final shape of the component and helps to manufacture components within predetermined tolerances in series production.
Field of Applications
- Arc Welding
- Laser Welding
- Spot Welding
- Brazing
- Stress Relief
Simufact Forming
Simufact Forming enables the simulation of forming processes. The software covers all essential areas of forming: hot forging, cold forming, sheet metal forming, all rolling processes, open-die forging and mechanical joining. Simufact Forming supports microstructure simulations, the calculation of die stresses and of the material flow as well as the prediction of material properties during heat treatment.
Field of Applications
- Cold Forming
- Hot Forming
- Sheet Metal Forming
- Mechanical Joining
- Sheet Rolling
- Forging
- Ring Rolling
- Pressure Welding.
Simufact Additive
Simufact Additive is a powerful and scalable process simulation environment for ‘right first time’ optimization of laser powder bed fusion processes. The software helps to compensate the distortion, minimize residual stresses and optimize the process parameters. Features include simulation of all the key AM process steps starting with ‘printing’ of the part; followed by heat treatment, cutting the part off the build plate and removal of support structures, plus heat and pressure combined processes (HIP).