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Mg-9Gd-4Y-0.6Mn合金在293~723 K时的变形行为及微观组织演变 被引量:10

Deformation behavior and microstructure evolution of Mg-9Gd-4Y-0.6Mn alloy at 293723K
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摘要 研究Mg-9Gd-4Y-0.6Mn 合金在应变速率为0.01 s-1、变形温度为293~723 K时的压缩塑性变形行为, 并在光学显微镜下观察合金在不同变形温度下的表面滑移线及孪生变形形貌与内部微观组织. 研究结果表明: 合金流变应力应变曲线在不同温度呈现出不同的形状, 加工硬化、动态回复和动态再结晶在不同的温度各自起到了重要的作用;在523 K以上时非基面滑移已被激活, 形变孪生在296~723 K范围都存在, 在673 K以上出现动态再结晶;动态再结晶晶粒优先在原始晶界和粗大第二相粒子处形核, 同时在723 K还观察到晶界弓出形核和"孪生"动态再结晶现象. The plastic deformation behavior of Mg-9Gd 4Y-0.6Mn alloy was investigated by compression at 293 - 723 K and 0.01 s^-1. The surface deformation relief and the internal mierostruc ture of the alloy at different deformation temperatures were analysed by optical microscopy. The results show that the flow curves exhibit different shapes at different temperatures, and that work-hardening, dynamic recovery and dynamic recrystallization operate respectively at different temperatures. The non basal slip is activated at above 523 K, twinning exits at 293 - 723 K, and dynamic recrystallization appears at above 673 K. The dynamic reerystallization (DRX) grains nucleate preferentially at initial grain boundaries and coarse particles, and in addition the nueleation by bulging of initial grain boundaries and "twinning" DRX at 723 K are observed.
作者 张新明 彭卓凯 邓运来 陈健美 蒋浩
机构地区 中南大学材料科学与工程学院
出处 《中南大学学报(自然科学版)》 EI CAS CSCD 北大核心 2006年第2期223-228,共6页 Journal of Central South University:Science and Technology
基金 国防预研基金资助项目(51412020304QT7106) 国家安全重大基础研究项目(5133001E) 湖南省自然科学基金资助项目(03JJY4051)
关键词 Mg-9Gd-4Y-0.6Mn合金 孪生 滑移 动态再结晶 Mg-9Gd-4Y-0.6Mn alloy twinning slip dynamic recrystallization
分类号 TG146.2 [金属学及工艺—金属材料]
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参考文献16

  • 1Mordike B L,Ebert T.Magnesium properties-application-potential[J].Mater Sci Eng A,2001,302:37-45.
  • 2Drits M E,Sviderkaya Z A,Rokhlin L L,et al.Effect of alloying on properties of Mg-Gd alloys[J].Metallovedenie i Termicheskaya Obrabotka Metallov,1979,21:62-64.
  • 3Shigeru I,Yuji N,Shigeharu K,et al.Age hardening characteristics and high temperature tensile properties of Mg-Gd and Mg-Dy alloys[J].Journal of Japan Institute of Light Metals,1994,44(1):3-8.
  • 4Anyanwu I A,Kamado S,Kojima Y.Creep properties of Mg-Gd-Y-Zr alloys[J].Mater Trans,2001,42(7):1212-1218.
  • 5Mohri T,Mabuchi M,Nakamura M,et al.Microstructural evolution and superplasticity of rolled Mg-9Al-1Zn[J].Mater Sci Eng A,2000,290:139-144.
  • 6Mwembela A,Konopleva E B,Mcqueen H J.Microstructural development in Mg alloy AZ31 during hot working[J].Scripta Mater,1997,37:1789-1795.
  • 7周海涛,王渠东,尉胤红,丁文江,朱燕萍,Y.Chino,M.Mabuchi.Flow stress and microstructural evolution in as rolled AZ91 alloy during hot deformation[J].中国有色金属学会会刊:英文版,2003,13(6):1265-1269. 被引量:3
  • 8Galiyea A,Kaibyshev R,Gottstein G.Correlation of plastic deformation and dynamic recrystallization in magnesium alloy ZK60[J].Acta Mater,2001,49:1199-1207.
  • 9牛济泰.材料和热加工领域的物理模拟[M].北京:国防工业出版社,1999:147-148.NIU Ji-Tai.Physical simulation technology of materials during hot processing[M].Beijing:National Defense Press,1999:147-148.
  • 10Massalski T B.Binary alloy phase diagrams[M].Ohio:American Society for Metals,1987:1523-1525.

二级参考文献12

  • 1[1]Froes F H,Eliezer D,Aghion E.The science,technology,and application of magnesium[J].JOM,1998,50(9):30-34.
  • 2[2]Mukai T,Watanabe H.Nieh T G,et al.Ductility enhancement in AZ31 magnesium alloy by controlling its grain structure[J].Mat Res Symp Proc,2000,601:291-302.
  • 3[3]Cahn R W.Processing of Metals and Alloys[M].Beijing:Science Press,1999.408-415.
  • 4[4]ASM Speciality Hand Book-Mg and Mg Alloy Materials[M].Park Obi:ASM International,1999.
  • 5[5]Sivakesavam O,Rao I S,Prasad Y V R K.Processing map for hot working of as cast magnesium[J].Mater Sci Technol,1993(19):805.
  • 6[6]Mcqueen H J,Ryan N D.Constitutive analysis during hot working[J].Mater Sci and Eng A,2002,A322:43-63.
  • 7[7]McQueen H J.Elevated temperature deformation at forming rates of 10-2 to 102 s-1 [J].Metall Mater Trans A,2002,33A:345.
  • 8[8]Watanabe H,Tsutsui H,Mukai T,et al.Grain size control of commercial wrought Mg-Al-Zn alloys utilizing dynamic recrystallization[J].Metal Materials Transactions,2001,42(7):1200-1205.
  • 9[9]Mahajan S,Williams D F.Deformation processing and structure[J].Int Metal Rev,1973,18:43.
  • 10[10]Mohri T,Mabuchi M,Nakamura M,et al.Microstructural evolution and superplasticity of rolled Mg-9Al-1Zn [J].Mater Sci and Eng A,2000,A290:139-144.

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中南大学学报(自然科学版)
2006年 第2期

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