2AlNb alloy; multi-pass; FEM simulation"/> 2AlNb alloy, a three-dimensional elastic-plastic FE (finite element) model of power spinning of thin-walled Ti2AlNb alloy shell was established based on the dynamic, explicit module of FE software. Stress concentration and the inhomogeneous deformation during simulation was dealt with reasonably. The process parameters were optimized and the distribution of strss and strain of workpiece with different passes were studied based on this model. Results showed that stressconcentration is found with increase of passes, meanwhile strain increases. This will lead to the deformation of workpiece is inhomogeneous. To solve this problem, stress-relief annealing between pass and pass was adopted. The reliability of model was validated by comparing the results of simulation and actual production."/>
Finite element simulation of multi-pass power spinning of thin-walled Ti2AlNb alloy shell
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Beijing Aeronautical Manufacturing Technology Research Institute,Beijing Aeronautical Manufacturing Technology Research Institute,,,
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Abstract:
Considering the characteristics of the actual spinning of Ti2AlNb alloy, a three-dimensional elastic-plastic FE (finite element) model of power spinning of thin-walled Ti2AlNb alloy shell was established based on the dynamic, explicit module of FE software. Stress concentration and the inhomogeneous deformation during simulation was dealt with reasonably. The process parameters were optimized and the distribution of strss and strain of workpiece with different passes were studied based on this model. Results showed that stressconcentration is found with increase of passes, meanwhile strain increases. This will lead to the deformation of workpiece is inhomogeneous. To solve this problem, stress-relief annealing between pass and pass was adopted. The reliability of model was validated by comparing the results of simulation and actual production.
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[Liu Degui, Li Jizhen, Wu Yang, Kou Hongchao, Li Jinshan. Finite element simulation of multi-pass power spinning of thin-walled Ti2AlNb alloy shell[J]. Rare Metal Materials and Engineering,2017,46(S1):211~216.] DOI:[doi]