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JI Xiaolei,HAN Pengbiao,LU Suling,LIU Le,MA Lei,WANG Tonghui.Numerical simulation for inverse extrusion forming of the hole of a rigging joint based on DEFORM[J].Journal of Hebei University of Science and Technology,2017,38(4):383-388
基于DEFORM的索具接头内孔反挤压成形数值模拟
Numerical simulation for inverse extrusion forming of the hole of a rigging joint based on DEFORM
Received:December 30, 2016  Revised:February 18, 2017
DOI:10.7535/hbkd.2017yx04010
中文关键词:  塑性加工工艺与设备  索具接头  反挤压  内孔成形  数值模拟  成形工艺
英文关键词:plastic forming processing and equipment  rigging joint  inverse extrusion  forming of the hole  numerical simulation  molding process
基金项目:河北省科技计划项目(15211804D)
Author NameAffiliationE-mail
JI Xiaolei School of Materials Science and Engineering Hebei University of Science and Technology Shijiazhuang  
HAN Pengbiao School of Materials Science and Engineering Hebei University of Science and Technology Shijiazhuang hpb68@163.com 
LU Suling School of Materials Science and Engineering Hebei University of Science and Technology Shijiazhuang  
LIU Le School of Materials Science and Engineering Hebei University of Science and Technology Shijiazhuang  
MA Lei School of Materials Science and Engineering Hebei University of Science and Technology Shijiazhuang  
WANG Tonghui Juli Sling Company Limited Baoding  
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中文摘要:
      为研究索具接头内孔挤压成形的可行性,采用有限元方法对索具接头内孔热挤压成形工艺进行了数值模拟分析。从金属流动规律及金属的流线分布两方面分析了索具接头内孔的成形性,并研究了不同挤压条件下索具接头的应力场、应变场及成形件晶粒大小的关系。确定了热挤压工艺参数:初始挤压温度为1 100~1 150 ℃,挤压速度为10 mm/s。通过有限元分析研究得出,内孔成形挤压后金属流线分布合理,无明显交叉、断裂的情况,且成形效果较好,尺寸精度较高。因此,该索具接头内孔热反挤压成形工艺切实可行。
英文摘要:
      In order to study the feasibility of hot forging forming process for rigging joints, the numerical simulation of hot inverse extrusion forming technology of the hole of a rigging joint is analyzed with finite element method, and the formability of rigging joint hole is analyzed from both metal flow regularity and metal streamline distribution. The relationships of rigging joints under different extrusion conditions between stress field, strain field and change of grain size of the extrusion parts are studied. The extrusion technological parameters are obtained which are initial temperature of 1 100~1 150 ℃ and extrusion speed of 10 mm/s. Through finite element analysis, after forming of the hole under extrusion, the simulation results show that the distribution of metal flow line is reasonable, there is no obvious cross or fracture, the forming result is good, and the dimensional accuracy is high. So the hot inverse extrusion forming of the hole of the rigging joint is feasible.
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