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含能材料柱状近净成形退模工艺仿真优化分析
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英文标题:Simulation optimization analysis on demolding process in columnar near net forming for energetic materials |
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作者:聂军刚 朱宇宏 袁志勇 吴进军 |
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单位:中机生产力促进中心 |
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关键词:含能材料 近净成形 退模 模拟仿真 有限元分析 |
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分类号:TJ55 |
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出版年,卷(期):页码:2018,43(9):184-185 |
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摘要:
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近净成形工艺是含能材料的主要成形方式之一,当原料通过近净成形工艺成形后,为了保证退模过程中冲头受力均匀和退模过程顺利,需要对退模过程进行研究。采用通用有限元分析软件ABAQUS建立含能材料柱状近净成形有限元模型,对其退模工艺全过程进行仿真分析,得到了退模过程中模具和冲头的最大应力,并且给出退模过程中的退模力-冲头位移曲线。进一步分析了退模加载速度对退模力的影响,分析了两种典型的加载速度工况下的退模力。结果表明,本文建立的有限元仿真模型能够有效地模拟近净成形退模工艺,为退模工艺的相关参数设计和工程实践提供指导。
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Near net forming process is one of the main forming methods of energetic materials. However, after the raw material is formed by the near net forming process, the demolding process needs to be studied in order to ensure that the punch is evenly stressed and the demolding process is smooth during the demolding process. Therefore, a columnar near net shape forming finite element model of energetic materials was established by general finite element analysis software ABAQUS, and the whole process of the demolding process was simulated and analyzed. Then, the maximum stresses of the mold and the punch during the demolding process were obtained, and the demolding force-punch displacement curve during the demolding process was given. Furthermore, the influence of the loading speed on the demolding force during the demolding process was analyzed, and the demolding forces under two typical loading speeds were analyzed respectively. The results show that the established finite element simulation model can effectively simulate the demolding process in the near net shape forming and provide guidance for the relevant parameter design and engineering practice of the demolding process.
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基金项目:
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高档数控机床与基础制造装备国家科技重大专项(2016ZX04005-002)
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作者简介:
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作者简介:聂军刚(1984-),男,硕士,工程师
E-mail:nie_jg@163.com
通讯作者:吴进军(1978-),男,博士,研究员
E-mail:jinjun_wu@163.com
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参考文献:
|
[1]谢志鹏, 苗赫濯. 精密陶瓷部件近净成形技术的发展
[J]. 真空电子技术, 2002, (3):10-14.
Xie Z P, Miao H Z. Development of near-net-shape techniques for fine ceramics
[J]. Vacuum Electronics, 2002, (3):10-14.
[2]张晓东. 异形块的近净成形工艺
[J]. 大形铸锻件,2018, (3):28-34.
Zhang X D. The near net forming process of heteromorphic block
[J]. Heavy Casting and Forging, 2018, (3): 28-34.
[3]韦丽君, 尹晓鹏, 张铁鑫. 微构件的热注射近净成形控制
[J]. 长春工业大学学报:自然科学版, 2014,35(3):261-265.
Wei L J, Yin X P, Zhang T X. Micro component injection molding control
[J]. Journal of Changchun University of Technology: Natural Science, 2014,35(3):261-265.
[4]闫丽丽,陈志刚,冯福财,等. 活检钳零件金属粉末注射工艺与模具
[J]. 模具工业, 2011, 37(4):49-52.
Yan L L, Chen Z G, Feng F C, et al. MIM technique and design of die for biopsy forceps part
[J]. Mold Industry, 2011, 37(4):49-52.
[5]张慧芳,张治民. 钛合金成型新技术
[J]. 山西科技, 2008, (3):156-157.
Zhang H F, Zhang Z M. New technology for titanium alloy forming
[J]. Shanxi Science and Technology, 2008, (3):156-157.
[6]王斌,黄尚宇,周梦成,等. 6061 铝合金粉末冷压成形本构模型
[J]. 锻压技术, 2018, 43(5):56-61.
Wang B, Huang S Y, Zhou M C, et al. Constitutive model of cold compaction forming for aluminum alloy 6061 powder
[J]. Forging & Stamping Technology, 2018, 43(5):56-61.
[7]赵烈伟,徐迎强,张国兵. 基于FEM 的套件成形工艺
[J]. 锻压技术, 2018, 43(5):167-171.
Zhao L W, Xu Y Q, Zhang G B. Nesting forming process based on FEM
[J]. Forging & Stamping Technology, 2018, 43(5):167-171.
[8]张伟,夏高宇,王强,等. 转向轴承套圈温锻成形工艺的有限元模拟
[J]. 锻压技术, 2016, 41(12):14-25.
Zhang W, Xia G Y, Wang Q, et al. Finite element analysis on warm forging process for steering bearing rings
[J]. Forging & Stamping Technology, 2016, 41(12):14-25.
[9]Hibbitt, Karlsson, and Sorensen, (2005) ABAQUS, Inc., Providence, RI, v6.5.
[10]任志俊, 薛国祥. 实用金属材料手册
[M]. 南京:江苏科技出版社, 2007.
Ren Z J, Xue G X. Practical Metal Materials Handbook
[M]. Nanjing: Jiangsu Science and Technology Press,2007.
[11]成大先. 机械设计手册
[M]. 北京:化学工业出版社, 2007.
Cheng D X. Mechanical Design Manual
[M]. Beijing: Chemical Industry Press,2007.
[12]庄茁,张帆,岑松,等. ABAQUS非线性有限元分析与实例
[M]. 北京:科学出版社, 2005.
Zhuang Z, Zhang F, Cen S, et al. ABAQUS Nonlinear Finite Element Analysis and Examples
[M]. Beijing: Beijing Science Press, 2005.
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