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Abstract:
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For the problem that the nickel-based superalloy was prone to typical defects such as crack and wrinkle due to severe work hardening during forming, taking the conical-cylindrical part as the object, a method for deep drawing spinning the conical-cylindrical part from the conical pre-formed blank after vacuum solution treatment was proposed, and its forming mechanism was studied. Based on Abaqus/Explicit, a finite element model of deep drawing spinning for conical-cylindrical part was established, and the distribution laws of transient equivalent stress, equivalent plastic strain, tangential stress, wall thickness and triaxial strain in the forming process were analyzed respectively. The results show that the maximum transient equivalent stress occurs in the contact area of roller and its vicinity, and the maximum transient equivalent plastic strain occurs at the mouth of blank. Besides, the maximum value of transient tangential compressive stress is located in the contact area of roller, and the maximum value of transient tangential tensile stress is located on both sides of the contact zone for roller. Furthermore, the wall thickness in the middle part of cylindrical section reduces, and the wall thickness of the blank mouth increases. Finally, the spinning tests show that the conical-cylindrical part obtains uniform wall thickness by deep drawing spinning conical pre-formed blank.
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Funds:
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国家自然科学青年科学基金项目(51705159)
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AuthorIntro:
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凌泽宇(1994-),男,硕士研究生,E-mail:mezyling@mail.scut.edu.cn;通讯作者:夏琴香(1964-),女,博士,教授,E-mail:meqxxia@scut.edu.cn
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Reference:
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