Moldex3D/Solid is the world’s leading true 3D simulation solution for in-depth design verification and troubleshooting With the best-in-class 3D technology based on solid hybrid mesh and High-Performance Finite Volume Method (HPFVM), Moldex3D/Solid allows you to optimize product designs and predict manufacturability.
By using Moldex3D/Solid, users can perform true 3D simulation on the widest range of application, including thick parts, those that have extreme thickness changes from thin to thick, those that are difficult to define a proper midplane model, or those with very complicated part geometry. Users can directly analyze the solid model without having to make significant model simplifications. The explicit analysis capabilities of Moldex3D/Solid provide users deep insight in solid plastic flow behaviors from macro view to micro view, such as fountain flow, inertia effect, gravity effect or shear-induced viscous heating. The intuitive displays help users to evaluate analysis results in three dimension and clearly address design defects.
Moldex3D/Solid has been proven by many users to be the most accurate 3D simulation solution. It is capable of simulating the plastics filling and packing, mold cooling, fiber orientation and part warpage for thermoplastic injection molding. Additional modules simulate multi-component molding (MCM) and reactive injection molding (RIM). Besides, the interface modules (I2) link Moldex3D with the popular structural analysis software to allow you to evaluate the interaction of process-induced material anisotropy and its effects on part structure.
Furthermore, Moldex3D/Solid has been developed with parallel computing technology in mind. With high-performance parallelized computing kernel, users can perform analyses on complex models with much less time than ever.
Moldex3D/Shell, which is based on an efficient and robust 2.5D technology, helps you to in-depth analyze and optimize the design of conventional parts. With the unique Fast Finite Element Method (FFEM) and meshing technologies, users can significantly decrease the mid-plane model preparation time and validate more design iterations.
Moldex3D/Shell is capable of simulating the plastics filling and packing, mold cooling, fiber orientation and part warpage for thermoplastic injection molding. Additional modules simulate gas-assisted injection molding (GAIM), multi-component molding (MCM) and reactive injection molding (RIM). Besides, the interface modules link mold-filling and structural analyses to allow you to evaluate the interaction of part structure and manufacturability.
After more than 15-year development, Moldex3D/Shell has become the most robust and reliable analysis tool. With the power of Moldex3D/Shell, users can quickly predict and solve injection molding manufacturing problems, and further optimize designs.