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脉冲电流频率对冷拔金属线材力学性能的影响 被引量:3

Effects of frequency of high-density pulsing current on mechanical properties of cold-drawn metallic wires
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摘要 经冷拔变形的金属线材在抗拉强度得到大幅提高的同时,伸长率明显下降,需要采用后处理方法来实现软化。采用不同频率的高强脉冲电流对两种冷拔金属线材(镀铜焊丝和55CrSi弹簧钢)进行处理,并通过单轴拉伸和金相分析研究电流对其性能和组织的影响。与处理前的样品相比,在较低的脉冲频率作用下,高强度镀铜焊丝和55CrSi弹簧钢的显微组织均没有发生明显变化,而抗拉强度分别下降17%和16%,伸长率分别提高36%和195%;提高脉冲频率后,在二者的显微组织中开始引入细小均匀的等轴晶,而抗拉强度分别下降40%和26%,伸长率则分别提高793%和384%。与退火热处理相比,高强脉冲电流可作为一种高效快速的冷拔金属线材后处理方法。 Effects of pulse frequency on mechanical properties and microstructure of two cold-drawn metallic wires(copper-coated iron wire and 55CrSi steel wire) treated by high-density pulsing current were studied by uniaxial tension and metallographic analysis.The results show that under the action of high-density current with low pulse frequency,no significant change of the microstructure is observed,and the tensile strength decreases by 17% and 16%,and the elongation increases by 36% and 195% for the copper-coated iron wire and 55CrSi steel wire,respectively.With increasing pulse frequency,fine and uniform recrystallized grains are formed,leading to the decrease of the tensile strength by 40% and 26%,and the increase of the elongation by 793% and 384% for copper-coated iron wire and 55CrSi steel wire,respectively.Therefore,the high density pulsing current treatment is an efficient post treatment process for cold-drawn metallic wires compared with isothermal annealing.
作者 邱胜宝 姚可夫 丁红瑜
机构地区 清华大学机械工程系 广州中国科学院工业技术研究院
出处 《材料热处理学报》 EI CAS CSCD 北大核心 2010年第7期114-118,共5页 Transactions of Materials and Heat Treatment
基金 清华大学基础研究基金项目(091201107)
关键词 高强脉冲电流 电塑性 抗拉强度 伸长率 回复再结晶 high-density pulsing current electroplasticity tensile strength elongation recover and recrystallization
分类号 TG356.26 [金属学及工艺—金属压力加工]
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共引文献47

同被引文献27

  • 1孙玉玲,刘兴江,王建中,齐锦钢.电脉冲处理频率及电压对1Cr18Ni9Ti钢氮碳共渗的影响[J].金属热处理,2015,40(1):131-134. 被引量:3
  • 2Altan T.Hot-stamping boron-alloyed steels for automotive parts[J].Stamping Journal,2006,6(12):40-41.
  • 3Naderi M,Durrenberger L,Molinari A,et al.Constitutive relationships for 22Mn B5 boron steel deformed isothermally at high temperatures[J].Materials Science and Engineering A,2008,478(1/2):130-139.
  • 4Karbasian H,Tekkaya A E.A review on hot stamping[J].Journal of Materials Processing Technology.2010,210(15):2103-2118.
  • 5Mori K,Maki S,Tanaka Y.Warm and hot stamping of ultra high tensile strength steel sheets using resistance heating[J].CIRP Annals-Manufacturing Technology,2005,54(1):209-212.
  • 6Zhao Y G,Ma B D,Guo H C,et al.Electropulsing strengthened 2GPa boron steel with good ductility[J].Materials and Design,2013,43:195-199.
  • 7Song H,Wang Z J.Improvement of mechanical properties of cold-rolled commercially pure Ti sheet by high density electropulsing[J].Transaction of Nonferrous Metal Society of China,2012,22(6):1350-1355.
  • 8Abdulhay B,Bourouga B,Dessain C,et al.Experimental study of heat transfer in hot stamping process[J].International Journal of Material Forming,2009,2(S1):255-257.
  • 9Merklein M,Lechler J,Stoehr T.Investigations on the thermal behavior of ultra-high strength boron manganese steels within hot stamping[J].International Journal of Material Forming,2009,2(S1):259-262.
  • 10Guan ) ,Tang G, Chu P K. Recent advances and challengesin electroplastic manufacturing processing of metals [J].Journal o f Materials Research,2011,2 5 ( 7 ) :1215 - 1224.

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材料热处理学报
2010年 第7期

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