Comprehensive MCM Simulation Considering the Previous Shot’s Effects | Moldex3D Blog Copy
May 19th, 2021
The multi-component molding (MCM) technology can efficiently integrate more than two separate plastic parts and is widely applied in the industry. Through CAE analysis, manufacturers can simulate product quality in advance. However, if we only consider the processing of the second shot, the product quality and design optimisation cannot be ensured. Due to the effects of multiple injections and numerous materials, the part insert status at the end of the first shot will affect the part warpage behaviors in the second shot. Thus, we need to better control the effects of the previous shot on the part warpage.
How the Material Properties of Previous Shot Affects the Second Shot
The mechanical and thermal expansion properties of the materials are important factors that affect warpage behaviours. In the MCM process, the final product might be assembled from more than two materials. If the part insert in the second shot is made from fibre-reinforced plastics, its anisotropic properties will affect the final product’s deformation. Moreover, the part insert is from the previous shot, so the fibre orientation caused by the previous shot will be highly relevant to the second shot (Fig. 1).
How the Processing of the Previous Shot Affects the Second Shot
The mould design and processing conditions of the previous shot derived from the internal pressure and temperature states in the part insert of the previous shot. Thus, under the interactions between the different components, the initial status of the part insert will bring changes to the heat conduction and stress balance of the products. Thus, to ensure the final product quality, we also need to consider the manufacturing process of the previous shot (Fig. 2).
To comprehensively consider the effects of the previous shot, Moldex3D can integrate the analysis results of the previous shot in the second shot simulation (Fig. 3). The Filling/Packing/Cooling and fibre orientation results of the previous shot can all be utilised in the second shot simulation. Thus, users can attain more accurate warpage analysis results.
Through Moldex3D Warp analysis, users can import various effects and states including fibre orientation, temperature, and pressure of the previous shot into the second-shot part insert simulation. Therefore, the warpage analysis results can be more consistent with reality, and users can further optimise the product quality successfully through critical information.
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