Compression molding is a common process in manufacturing complex composite components for industrial applications (Fig. 1). Â Sheet Molding Compound (SMC), Glass Mat Thermoplastic (GMT), and Pre-Impregnated (Pre-Preg) are the most common compression molding processes used in composite component manufacturing. Â However, since the rheological properties of composite materials have both solid and fluid behaviors, simulation becomes a challenge. Â Commercial softwares are designed to calculate either fluid behavior or structure deformation and those calculations are derived from different equations.
Fig. 1 Compression molding process
SMC, formed using compression molding process, can now be analyzed by integrated numerical simulation. The integration method, involving both Computational Structural Mechanics (CSM) and Computational Fluid Dynamics (CFD), is used to predict both charge’s deformation and flow behavior of SMC, respectively.
To simulate the process, LS-DYNA, commercially available FEA software, integrated with Moldex3D is applied (Fig. 2). The initial charge’s shape, temperature, stress tensor, and anisotropic material property are first computed by LS-DYNA; then, carrying those physical properties, the deformed charge is exported to Moldex3D to continue the compression molding analysis (Fig. 3). The analysis results of flow behavior and warpage show that the proposed integration method can successful simulate the complex behaviors of SMC in compression molding.
Fig.2 Flowchart of integration method
Fig. 3 Charge’s deformation during compression is simulated
The integration with LS-DYNA is a new feature in Moldex3D R15.0. Through it, the full compression molding process of SMC can be comprehensively and accurately simulated. The charge’s large deformation behavior of SMC is calculated by LS-DYNA, while the fluid behavior and fiber orientation during compression molding is computed by Moldex3D. This enables users to attain more accurate and reliable data for product and process designs easily.
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