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Title:Study of influential factors on decompression shock of large hydraulic press
Authors: Zhou Yufeng  Tan Jianping  Xu Hongtao  Zeng Le 
Unit: Central South University 
KeyWords: large hydraulic press decompression shock pipe oil 
ClassificationCode:TH-137
year,vol(issue):pagenumber:2015,40(11):58-62
Abstract:
Theoretical formulas were summarized on the formation and release of energy, and many factors such as pipe parameters,oil parameters,initial pressure of system, opening time of unloading value,etc. influencing on the decompression shock were presented. The AMESim simulation model of the hydraulic system was set up. The influence regularities on decompression shock were simulated and analyzed by single variable method.  The influence regularities of pipe length on decompression shock were researched more carefully by dividing pipe into two parts from hydraulic source to unloading-valve and from unloading-valve to oil tank. The conclusions show that the key factors influencing on the decompression shock are the pipe length, which is from unloading-valve to oil tank especially, diameter, elastic modulus of the pipe, the unloading-valve opening time and initial pressure of system. 
 
Funds:
国家科技重大专项(2009ZX04005-031);高性能复杂制造国家重点实验室自主探索基金(zzyjkt2013)
AuthorIntro:
周宇峰(1989-),男,硕士研究生 谭建平(1963-),男,博士,教授,博士生导师
Reference:


[1]陈柏金,黄树槐,魏运华,等.锻造液压机高压卸载系统改进研究 [J].液压与气动,2008,(1):57-59.Chen B J,Huang S H,Wei Y H,et al.Reconstruction of high pressure unloading system for the forging hydraulic press [J].Hydraulics & Pneumatics,2008,(1):57-59.
[2]湛利华,沈文奇,陈敏,等.大型模锻压机卸压回路仿真研究 [J].锻压技术,2013,38 (1):80-84.Zhan L H,Shen W Q,Chen M,et al.Simulation research on pressure relief loop for large die-forging hydrualic press [J].Forging & Stamping Technology,2013,38 (1):80-84.
[3]司玉校,谭建平,孙康.基于能量均匀释放原则的工作缸卸荷曲线研究 [J].锻压技术,2012,37 (1):91-94.Si Y X,Tan J P,Sun K.Research on working cylinder unloading curve based on principleof energy uniform release [J].Forging & Stamping Techinology,2012,37 (1):91-94.
[4]蒋婷婷,谭建平,司玉校,等.高压大流量液压系统卸荷规律实验研究 [J].锻压技术,2012,37 (5):80-82.Jiang T T,Tan J P,Si Y X,et al.Experimental study on unloading rules in hydraulic system with large flow and high pressure [J].Forging & Stamping Techinology,2012,37 (5):80-82.
[5]章宏甲,黄谊.液压传动 [M].北京:机械工业出版社,2003.Zhang H J,Huang Y.Hydraulic Transmission [M].Beijing:China Machine Press,2003.
[6]马恩.液压与气压传动 [M].北京:电子工业出版社,2007.Mar E.Hydraulic and Pneumatic Transmission [M].Beijing:Publishing House of Electronics Industry,2007.

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