Numerical simulation study on monoblock casting process of ultra-slender structural components and experimental validation

• Main Authors: Xu-liang Zhang, Xiu-mei Chi, Bo-dong Zeng
• Format: Article
• Language: English
• Published: Foundry Journal Agency 2017-11-01
• Series: China Foundry
• Subjects: aluminum alloy structural component; numerical simulation; defect prediction
• Online Access: http://ff.foundryworld.com/uploadfile/2017110132651709.pdf

Substrate, a typical ultra-slender aluminum alloy structural components with a large aspect ratio and complex internal structure, was traditionally manufactured by re-assembly and sub-welding. In order to realize the monoblock casting of the substrate, the Pro/E software was utilized to carry out three-dimensional (3D) modeling of the substrate casting, and the filling and solidification processes were calculated, as well as the location and types of casting defects were predicted by the casting simulation software Anycasting. Results of the filling process simulation show that the metal liquid is distributed into each gap runner evenly and smoothly. There is no serious vortex phenomenon in the mold cavity, and the trajectory of the virtual particles is clear. Results of the solidification process simulation show that shrinkage cavities mainly appear at the junction of gap runners and the rail surface of the substrate. The average deformation is 0.6 mm in X direction, 3.8 mm in Y direction, and 8.2 mm in Z direction. Based on the simulation results, the casting process of the substrate was optimized, and qualified castings were successfully produced, which will provide a reference for the casting process design of other ultra-slender aluminum alloy structural components.