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Title:Structural deformation analysis of 6300 kN multi-directional liquid die forging hydraulic press frame considering the effect of heat
Authors: Song Shuangshuang  Li Junyuan 
Unit: Zhejiang University of Technology 
KeyWords: thermal-mechanical coupling analysis  Ansys Workbench  liquid die forging hydraulic press frame 
ClassificationCode:
year,vol(issue):pagenumber:2015,40(7):98-102
Abstract:

The liquid forging die in the process of production has a certain temperature, which makes the frame under the dual function of heat and force. Based on the study of the liquid forging hydraulic press frame structure characteristics and Ansys Workbench software, and considering the influence of temperature and stress distribution on the frame, the finite element analysis was carried on the hydraulic press frame. Results show that the largest deformation appears on the hydraulic cylinder flange ring surface of the beam both in the structural static analysis and thermal-mechanical coupling analysis, which are 0.9938 and 1.2735 mm respectively; when considering the effect of heat, the stress-strain value of hydraulic press workbench increases significantly, the maximum deformation position of the columns moves from upper to the lower, and the radial deformation of columns increases obviously, from 0.1827 mm to 0.6148 mm.

Funds:
AuthorIntro:
宋双双(1991- ),女,硕士研究生
Reference:

[1]齐丕骧.挤压铸造(液态模锻)技术的最新发展[R].苏州:2007年中外压铸技术交流会,2007.


Qi P X. The latest development of squeeze casting (liquid die forging) technology[R].Suzhou: The Chinese and Foreign Die-casting Technology Exchange Meeting,2007.


[2]宋雷,邵明.挤压铸造设备的研究进展与发展趋势[J].锻造,2010,59(10):1039-1043.


Song L, Shao M. Research progress and developing trend of squeeze casting equipment[J]. Forging, 2010,59(10):1039-1043.


[3]Ghomashchi M R, Vikrow A.Squeeze casting: overview [J].Journal of Materials Processing Technology,2000,101(1):1-9.


[4]闫红红,李永堂,刘兴,等.80MN双柱斜置式快速锻造液压机有限元分析[J].锻压技术,2013,38(1):93-97.


Yan H H, Li Y T , Liu X,et al. The finite element analysis of 80MN double column diagonal fast forging hydraulic press[J]. Forging & Stamping Technology, 2013,38(1):93-97.


[5]张倩倩,薛克敏.新型6300 kN模锻液压机结构有限元分析及优化[J].塑性工程学报,2011,18(4):17-21.


Zhang Q Q, Xue K M. The finite element analysis and structure optimization of new 6300 kN die forging hydraulic press[J]. Journal of Plastic Engineering,2011,18(4):17-21.


[6]张剑寒,曾攀.400 MN航空模锻液压机机架有限元分析[J].锻压技术,2009,34(4):93-97.


Zhang J H, Zeng P. The finite element analysis of 400 MN air die forging hydraulic press frame[J]. Forging & Stamping Technology, 2009,34(4):93-97.


[7]Zdenek Chval. Effect of Heat Load on a Forging Press[J]. Procedia Engineering,2014,69(3):879-901.


[8]耿鑫明.压铸件生产指南[M].北京市:化学工业出版社,2007.


Geng X M . Die Casting Production Guide[M].Beijing: Chemical Industry Press, 2007.


[9]张倩倩. 6300 kN多向模锻液压机组合机身结构[D].合肥:合肥工业大学,2011.


Zhang Q Q. 6300 kN Multidirectional Die Forging Hydraulic Press Combination Fuselage Structure[D]. Hefei: Heifei University of Technology,2011.


[10]俞新陆,液压机的设计与应用[M].北京:机械工业出版社,2006.


Yu X L. The Design and Application of Hydraulic Press[M].Beijing:China Machine Press,2006.

 

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