Our forging simulation and modelling capabilities provide advanced computational techniques that predict and analyse metal behaviour during forging by creating digital models of billets, dies and forming operations. Used for aerospace, automotive, power generation and heavy machinery forgings, they help design complex components like turbine disks, shafts, and structural parts with greater accuracy and efficiency.
These techniques reduce trial-and-error, optimise die and process design, minimise material waste, lower production costs and ensure mechanical and dimensional specifications are met, while improving control over grain flow and internal stresses to produce stronger, more reliable forged parts and accelerate time-to-market.
