Research on Precision Forging Law of Complicated Blade by Using 3D FE Simulation and Physical Modeling

Mei Zhan; He Yang; Yue Lian Liu

doi:10.4028/www.scientific.net/MSF.471-472.839

Paper Titles

Research on the Sintering Process and Performance of Large-Scale Alumina Matrix Ceramic Products
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Research and Application on High Efficiency Reversible Cutting Technique
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Development of PMAC-Based Multifunctional Combined CNC Machine
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The Experiment Analysis and Numerical Simulation on Fracture of Complex-Shaped Part Drawing
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Research on Precision Forging Law of Complicated Blade by Using 3D FE Simulation and Physical Modeling
p.839

Analysis of Step Interference Fit of the High Speed Motorized Spindle with Finite Element Method
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Rough Set Data Analysis System and Its Applications in Machinery Fault Diagnosis
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Collision and Determination of Workpiece Location in Parallel Mechanism Type Machine Tools
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Numerical Simulation of Sheet Deforming Caused by Laser Shocking
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Research on Precision Forging Law of Complicated Blade by Using 3D FE Simulation and Physical Modeling

Abstract:

Research on precision forming laws of complicated blade has been a challenging issue on international frontiers of plastic forming areas. The precision forging laws of the blade with a damper platform have been obtained by using 3D FE simulation and physical modeling. The laws involve in the deforming characteristics of the tenon, damper platform, middle blade body, and tip blade body, such as the unevenness of deformation and material flow, the branch-flow of material, material flow characteristic of the blade body and rotation forming characteristic of the damper platform. The research may serve as a guide to the optimization design of relevant process and dies.