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变形镁合金晶粒细化及热处理后的组织和性能 被引量:14

Grain Refinement of Wrought Magnesium Alloy and Microstructures and Properties in Annealing States
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摘要  通过变形方法细化晶粒提高镁合金塑性。大挤压比(100:1)可获得细晶镁合金挤压薄板,其晶粒尺寸为2.5~12.5μm;大挤压比+轧制确保合金获得平均晶粒尺寸小于5μm的细晶镁合金薄板。通过优化再结晶退火制度使合金具有最佳的组织结构和良好的力学性能。在523K保温20min后细晶(晶粒尺寸小于12.5μm)镁合金板材具有良好的热拉深性能,能成功拉深出质量完好的筒形件,而晶粒尺寸大于25μm,出现不良的热拉深现象。 Plasticity property of magnesium alloy was improved with grain refinement in the process of deformation. Extrusion thinner strip was obtained with fine grains for size of 2.5~12.5μm in high extrusion ratio 100:1; high extrusion ratio and rolling ensured thinner strip of magnesium alloy with average size of grains less then 5 μm. The best microstructure and mechanical properties of magnesium alloy were gained by optimal recrystallization annealing. High hot drawing property of fine grain strip was presented after hold time 20min at 523K, and then fine grain strip successfully attained qualified cup-rawing, however poor hot drawing appeared for size of grains above 25μm.
作者 宋孚群 张青来 徐永超 张坤 张士宏 王忠堂
机构地区 上海交通大学材料科学与工程学院 中国科学院金属研究所
出处 《金属成形工艺》 2004年第3期46-49,共4页 Metal Forming Technology
基金 国家863计划资助项目(2003AA331120)
关键词 变形镁合金 晶粒细化 热处理 组织 性能 退火 Mg-alloy grain refinement annealing microstructures and properties
分类号 TG146.22 [金属学及工艺—金属材料] TG166.4 [金属学及工艺—热处理]
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参考文献8

  • 1余琨,黎文献.Mg-Al-Zn系变形镁合金轧制及热处理后的组织和性能[J].金属热处理,2002,27(5):8-11. 被引量:80
  • 2汪凌云,黄光胜,范永革,黄光杰.变形AZ31镁合金的晶粒细化[J].中国有色金属学报,2003,13(3):594-598. 被引量:124
  • 3T Mukai, H Watanabe, K Higashi. Application of superplasticity in commercial magnesium alloy for fabrication of structural components[J]. Material Science and Technology, 2000, 16(11 - 12): 1314 - 1319.
  • 4Shyong Lee, Yung-Hung Chen, Jian-Yih Wang. Isothermal sheet formability of magnesium alloy AZ31 and AZ61[J].Journal of Material Processing Technology. 124(2002) :19 -24.
  • 5E. Doege, K. Droder. Procrssing of magnesium sheet metals by deep drawing and stretch forming[J]. Mat. Tech.,1997(7-8):19 -23.
  • 6Tozawa Y. Deep drawing of magnesium alloy sheets[J].J. Japan Inst. light. Metals, 2001,51 (10) :492 -497.
  • 7M Mabuchi, Iwahashi H, Yanase K,et al. Low temperature superplasticity in an AZ91 magnesium alloy processed by ECAE[J]. Scripta Mater, 1997,36 (6):681-686.
  • 8Mukai T, Watanabe H, Higashi K. Grain refinement of cast Mg-AI alloys for high-astrain-rate-superplastic forming[J]. Materials Science Forum, 2000(350-351):159 - 170.

二级参考文献13

  • 1Cahn R W 丁道云(译).非铁合金的结构与性能[M].北京:科学出版社,1999..
  • 2[1]Westengen H K. Magnesium die casting: from ingots to automotive parts[J]. Light Metal Age, 2000, 58(3-4): 44-52.
  • 3[2]Dwain M, Magers A. Global review of magnesium parts in automobiles[J]. Light Metal Age, 1996, 54(9-10): 60-63.
  • 4[3]Luo A, Pekguleryuz M O. Review cast magnesium alloys for elevated temperature applications[J]. Journal of Materials Science, 1994, 29(20): 5259-5271.
  • 5[4]Avedesian M M, Baker H. ASM Specialty Handbook-Magnesium and Magnesium Alloys[M]. USA: ASM International, 1999: 1-30.
  • 6[5]Wiley J. Magnesium and its Alloys[M]. USA: Sons Inc, 1960: 177-180.
  • 7[6]Kubota K, Mabuchi M, Higashi K. Review processing and mechanical properties of fine-grained magnesium alloys[J]. Journal of Materials Science, 1999, 34(10): 4311-4320.
  • 8[7]Kojima Y. Platform science and technology for advanced magnesium alloys[J]. Materials Science Forum, 2000, 350-351: 3-18.
  • 9[8]Mabuch M, Nakamura M, Ameyama K. Superplastic behavior of magnesium alloy processed by ECAE[J]. Materials Science Forum, 1999, 304-306: 67-72.
  • 10[9]Watanabe H, Mukai T, Higashi K. Low temperature superplastic behavior in ZK60 magnesium alloy[J]. Materials Science Forum, 1999, 304-306: 303-308.

共引文献191

同被引文献128

引证文献14

二级引证文献60

金属成形工艺
2004年 第3期

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