Simufact Forming 2024.3 x64

Simufact Forming is a computer modeling system for calculating metal deformation processes in forging and volume stamping processes when designing die tooling. Simufact Forming allows you to optimize temperature-speed, taking into account the stress-strain state, process conditions, and design optimal technologies. This is facilitated by the adequacy of the process models, as well as an accurate description of the rheological behavior of the metal under deformation conditions. From forging to rolling, from sheet metal to titanium, Simufact Forming provides all the tools for efficient modeling and calculation, regardless of the process temperature, the equipment used or the materials being processed.

Simufact is a suite of industrial forging process simulation and analysis software, consisting of a powerful finite volume solver and a WINDOWS-style graphical interface for integrated and user-friendly simulation and analysis applications. By utilizing Simufact's forging simulation technology, faster and more cost-effective simulation tests can be made, speeding up the time to market.

Forging is a highly non-linear process that requires complex interactions between the material and the die and workpiece. In most cases, the shape of the forged blank is fairly simple, but the geometry of the final product is very complex, requiring segmented material flow and multiple forging to complete. Therefore, the simulation software uses a finite volume based material flow simulation technique, which solves the obstacles to material flow due to conventional deformation.

The emergence of Simufact (R&D) has given the forging industry the opportunity to take advantage of the great benefits of numerical analysis tools. Simufact is a powerful 3D forging process simulation and analysis tool that can be effectively used to observe and compare the differences between the steel die and the forging program process, the impact of a variety of process characteristics, including: material flow, the final shape of the workpiece and the mechanical properties of the excess Material area (material flash region), etc., in order to be able to use the most economical material, the shortest time, to get the mechanical properties most in line with the expected forging products. Currently, Simufact has been used for actual forging process simulation and analysis by several leading Japanese companies, such as Sumitomo Heavy Industries, Toyota Motor Corporation and Denso Corporation.

Simufact.forming forming simulation system, which can complete all metal forming simulations with independent material database, machine database, etc., is an upgraded version of MSC.SuperForm and MSC.SuperForge.

Simufact.Forming has been successfully developed to support all current manufacturing software applications and can independently simulate metal temperatures, body usage or material handling: closed die forging or extrusion, steel drawing, upsetting, bending or free forging, rolling, rolling or tumbling of profiles - cold, hot or semi-hot, mechanical presses, hammers or screw presses, rollers or orbital forging - and more. Processes as well as spring-controlled tools for simple analysis of low alloys or stainless steel, aluminum or non-ferrous metals, titanium-nickel alloys, large-scale engineering or sheet-engineering, material flow or dieload. Forming optimizes the integrated simulation environment and process.