- Date:Jul 24, 2026
- Location: Online
- Time: 11:30 AM IST
| Date | Time | |
| July 24, 2026 | 11:30 AM IST | Register |
Discover how Moldex3D 2026 empowers engineers to optimize SMC Compression Molding for lightweight, high-strength EV applications through advanced simulation. This session will showcase the latest SMC capabilities in Moldex3D 2026, including optimization of charge size and placement, prediction of material flow, fiber orientation, and thickness distribution, and an understanding of the critical material properties governing SMC molding. Through a real-world EV battery cover case study, learn how virtual validation enables faster process optimization, improved part quality, enhanced structural performance, and reduced development time for next-generation composite EV components with the help of Moldex3D 2026
🧠What You’ll Learn
- Introduction to SMC Compression Molding and its growing role in lightweight, high-strength EV applications.
- Understanding the complete SMC Compression Molding process and the key process parameters influencing part quality.
- Importance of critical SMC material properties and their impact on material flow, fiber orientation, and final component performance.
- How to set up and run an SMC Compression Molding simulation in Moldex3D 2026.
- How to optimize charge size, shape, location, and charge pattern for improved material flow and complete mold filling.
- Predict and interpret key simulation results including material flow, fiber orientation, thickness distribution, stress development, and other critical molding characteristics, and understand their impact on part quality and structural performance.
- Identify potential molding defects and implement effective corrective and preventive actions using virtual simulation.
- Learn how to integrate Moldex3D simulation results with leading FEA software by exporting fiber orientation, residual stress, weld line information, thickness distribution, and other molding results for accurate structural, durability, and performance analysis.
- Real-world EV Battery Cover case study demonstrating simulation-driven design and process optimization using Moldex3D 2026.
By the end of this session, you will understand how to leverage Moldex3D 2026 to virtually validate and optimize SMC Compression Molding processes, interpret critical simulation results, and seamlessly transfer manufacturing data to FEA for more accurate structural analysis. Discover how simulation-driven engineering reduces trial-and-error, accelerates product development, and delivers lightweight, high-performance EV components with greater confidence.
Contact
For sales & technical inquiries, please write to Khaled EL Bchiri at khaled.bchiri@moldex3d.com
