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T型三通管液压成形的塑性损伤(英文) 被引量:3

Plastic damage of T-shape hydroforming
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摘要 采用GTN损伤模型,分析了不锈钢T型三通管的破裂行为,采用数值模拟和管件液压胀形试验确定了GTN模型中临界孔洞体积分数和极限孔洞体积分数,分析了成形压力及轴向补料量对损伤演变的影响,分析了应力三轴度及塑性应变对孔洞体积分数的影响规律。结果表明:成形压力较高或轴向补料量较小时,管件成形过程中将产生破裂缺陷。支管顶部处于双向拉应力状态,主管侧壁处于环向拉伸、轴向压缩的应力状态。在成形初始阶段,内压较低时,塑性应变孔洞体积分数变化的影响较大;然而,在成形后期,内压较高时,应力三轴度对孔洞体积分数的增大有较大影响。数值模拟及试验结果给出了相同的壁厚分布规律,所成形三通管的最大壁厚减薄率为36%左右。 采用GTN损伤模型,分析了不锈钢T型三通管的破裂行为,采用数值模拟和管件液压胀形试验确定了GTN模型中临界孔洞体积分数和极限孔洞体积分数,分析了成形压力及轴向补料量对损伤演变的影响,分析了应力三轴度及塑性应变对孔洞体积分数的影响规律。结果表明:成形压力较高或轴向补料量较小时,管件成形过程中将产生破裂缺陷。支管顶部处于双向拉应力状态,主管侧壁处于环向拉伸、轴向压缩的应力状态。在成形初始阶段,内压较低时,塑性应变孔洞体积分数变化的影响较大;然而,在成形后期,内压较高时,应力三轴度对孔洞体积分数的增大有较大影响。数值模拟及试验结果给出了相同的壁厚分布规律,所成形三通管的最大壁厚减薄率为36%左右。
作者 滕步刚 苑世剑 陈增涛 金学润
机构地区 哈尔滨工业大学金属精密热加工国家级重点实验室 哈尔滨工业大学材料科学与工程学院 新不伦瑞克大学机械工程系 一汽轿车股份有限公司
出处 《中国有色金属学会会刊:英文版》 CSCD 2012年第S2期294-301,共8页 Transactions of Nonferrous Metals Society of China
基金 Project (2011BAG03B03) supported by the National Key Technologies R&D Program of China: Development of Advanced Forming Technologies of High Strength Steel and Integration Applications in Target Car
关键词 T型三通 液压成形 GTN模型 损伤 破裂 孔洞体积分数 内压 T-shape hydroforming GTN model damage bursting fracture porosity internal pressure
分类号 TG306 [金属学及工艺—金属压力加工]
  • 相关文献

参考文献20

  • 1苑世剑,何祝斌,刘钢,王小松,韩聪.内高压成形理论与技术的新进展[J].中国有色金属学报,2011,21(10):2523-2533. 被引量:91
  • 2彭俊阳,张文达,刘钢,祝世强,苑世剑.内压分布对内高压成形Y型三通管壁厚均匀性的影响(英文)[J].中国有色金属学会会刊:英文版,2011,21(S2):423-428. 被引量:4
  • 3Sang-Woo Kim,Woo-Jin Song,Beom-Soo Kang,Jeong Kim.Bursting failure prediction in tube hydroforming using FLSD[J]. The International Journal of Advanced Manufacturing Technology . 2009 (3-4)
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二级参考文献18

  • 1CHU E,XU Y.Hydroforming of aluminum extrusion tubes for automotive applications. (Part I) Buckling, wrinkling and bursting analyses of aluminum tubes. International Journal of Mechanical Sciences . 2004
  • 2KOC M.Tribological issues in the tube hydroforming process- selection of a lubricant for robust process conditions for an automotive structural frame part. Journal of Manufacturing Science and Engineering Transactions of the ASME . 2003
  • 3KOC M.The use of FEA and design of experiments to establish design guidelines for simple hydroformed parts. International Journal of Machine Tools and Manufacture . 2000
  • 4LIU Gang,PENG Jun-yang,WANG Xiao-song,ZHU Shi-qiang,YUAN Shi-jian.Effects of preform on thickness distribution of hydroformed Y-shaped tube. Advanced Materials Research . 2011
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  • 6Muammer Koc,Taylan Altan.An overall review of the tube hydroforming (THF) technology. Journal of Materials . 2001
  • 7M Ahmetoglu,T Altan.Tube Hydroforming: State-of-the-art and Future Trends. Journal of Materials . 2000
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  • 9N Asnafi,A Skogsgardh.Theoretical and Experimental Analysis of Stroke-controlled Tube Hydroforming. Journal of Materials Science . 2000
  • 10A Fiorentino,E Ceretti,A Attanasio,D Braga,C Giardini.Experimental study of lubrication influence in the production of hydroformed T-joint tubes. Key Engineering Materials . 2009

共引文献92

同被引文献35

引证文献3

二级引证文献2

中国有色金属学会会刊:英文版
2012年 第S2期

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