Abstract:The pipe die forging with solid-medium-filling was simulated by finite element method to the effects of parameters, such as blank size, core volume and friction coefficients, on the thickness distribution and shape accuracy. The stress–strain cures of tube blank material and core material were obtained by unidirectional tensile test and unidirectional compression test. The methods of determining the geometric dimensions of tube blank and core based on the final parts were given. The tangential parting surface was proposed in die design in order to avoid flash. According to the material data, the geometric model of tube blank, core and die, the finite element model of forming process was established. Then the processing was simulated. Taking the part thickness distribution and the gap between part and die in the simulation results as the indexes to evaluate the forming quality, the effects of the dimensional parameters of α and β and the friction coefficients fi and ft on the forming results are analyzed. The results show that the dimensional parameter combination α=1.00 and β=1.05 and the friction coefficient combination fi = 0.05 and ft = 0.05 are more conducive to the thickness distribution and shape accuracy.
韩金全,王上朝,孟宝,万敏. 航空发动机叶片导流管的固态介质模锻成形技术[J]. 航空制造技术, 2022, 65(10): 52-60.
HAN Jinquan, WANG Shangzhao, MENG Bao, WAN Min. Solid Medium Forging of Impingement Cooling Pipe for Aero-Engine Blade[J]. Aeronautical Manufacturing Technology, 2022, 65(10): 52-60.