Managing costs, quality, and efficiency in product design stage could be the greatest business hurdle. Moldex3D is designed to deliver just-in-time molding solutions for less real mold trials, faster time-to-market, and time-to-profit. Moldex3D R12 maximizes the success potential with new capabilities and features like faster model repair workflow, dynamic molding process supports, and continuous efforts on prediction and optimization enhancements. Simplify High-quality Mesh Generation Process Extends the unrivaled meshing capabilities to offer a very intuitive Boundary Layer Mesh (BLM) generation tool in Moldex3D Designer, giving users who need to prepare advanced analyses a strong boost Moldex3D CADdoctor Heals Geometrical Problems Streamlines the model exchange process between CAD and CAE with powerful manual healing functions for maximum flexibility, improving efficiency with faster model repair workflow nvestigates potential defects resulted from heat and pressure, decides appropriate materials, and optimize process conditions. Easily defines compression zones, surfaces, and directions for better production efficiency and enhanced processability Moldex3D Compression Molding Tutorial Bi-injection Molding Assesses the filling pattern of the same plastic material with two colors being injected into a cavity from different gates and predicts welding line locations to enhance the quality of dual-colored products Powder Injection Molding Gets accurate at visualizing high-precision and complex metal/ceramic injection molding, helping users predict potential molding defects based on the fluid flow behavior of the feedstock consisted of powder and binder Moldex3D Powder Injection Molding Tutorial Strengthen Prediction and Optimization Capabilities through Enhancements Annealing Process Analysis Extends simulation calculation to post-molding annealing process, providing a powerful tool to determine processing condition based on the possible annealing method Co-injection Analysis Provides users a comprehensive insight into the flow behavior of core materials inside cavities when blow through happens Core Shift with Two-way (FSI) Predicts the simulation result of part inserts with two-way FSI method to increase accuracy and improve core deformation Venting Analysis Provides trapped air temperature and pressure results Fiber Analysis Empowers prediction capabilities on fiber breakage and fiber length distribution results, preventing high shear stress problems DOE Optimization Auto Gate Location Function Identifies the best gate location to achieve flow balance and provide support for single and multiple gate models Weight Designation of Multiple Quality Factors Obtains optimal process conditions based on different weighting values of each quality factor