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双态组织TiAl基合金拉伸塑性的断裂力学 被引量:7

Fracture mechanics of tensile ductility of TiAl alloy with duplex structure
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摘要 探讨了双态组织TiAl基合金中晶粒尺度对合金常温拉伸塑性的影响。对等温锻造后的γ TiAl基合金进行了热处理 ,获得了含有不同等轴γ晶粒及片层晶粒体积比的双态组织。采用单轴拉伸实验 ,对断口进行分析发现 :双态组织的断裂方式是脆性断裂 ,在片层区域以穿晶解理断裂为主 ,而在以等轴γ区域为主的细晶区以沿晶断裂为主。通过统计断裂力学分析 ,建立了双态组织TiAl基合金拉伸塑性模型 ,并得出结论 :只有在晶粒半径细化到 5 0 μm以下 ,才会对拉伸塑性产生较大的影响。 The effects of grain size on the tensile ductility in a TiAl alloy with duplex structure have been studied. Isothermally forged γ TiAl alloy was heat treated, and a series of fine duplex microstructures with different volume fraction of equiaxed γ grains and lamellar colonies ( α 2+γ ) were achieved. Uniaxial tension experiment was carried out at room temperature. Fracture surfaces analysis shows that the fracture mode of duplex structure is brittle fracture. In lamellar area, the fracture is dominated by transgranular cleavage, while in equiaxed γ grain area, intergranular decohesion is the main mode of failure. On the basis of an analysis of statistical fracture mechanics, a tensile ductility model of the TiAl alloy with duplex structure was established. And a conclusion is obtained that grain size has prominent effect on tensile ductility of this material only when the grain radius is refined to below 50?μm. [
作者 郑瑞廷 郭富安 张永刚 陈昌麒
机构地区 北京航空航天大学材料科学与工程系
出处 《中国有色金属学报》 EI CAS CSCD 北大核心 2001年第z2期114-118,共5页 The Chinese Journal of Nonferrous Metals
基金 国家自然科学基金资助项目 (5 9895 15 0 )
关键词 TIAL基合金 双态组织 拉伸塑性 晶粒尺度 微裂纹 TiAl alloys duplex structure tensile ductility grain size microcrack
分类号 TG146.2 [金属学及工艺—金属材料]
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参考文献11

  • 1[1]Appel F,Wagner R.Microstructure and deformation of two-phase γ-titanium aluminides [J].Mater Sci Eng,1998,22(5): 187-268.
  • 2[2]Huang S C,Shih D S.Titanium Aluminides and Alloys [M].TMS,Warrendale,PA,1990.105-118.
  • 3[3]Chan K S.Gammar Titanium Aluminades [M].TMS,Warrendale,PA,1995.835-847.
  • 4[4]Chan K S,Kim Y W.Effects of lamellae spacing and colony size on the fracture resistance of a fully-lamellar TiAl alloy [J].Acta Metall Mater,1995,43(2): 439-451.
  • 5[5]Schulson E M,Baker D R.A brittle to ductile transition in NiAl of a critical grain size [J].Scripta Metall,1983,17: 519-522.
  • 6[6]Evangelista E,Zhang W J.Toughening mechanism in the lamellar and duplex TiAl-based alloys at ambient temperature: microcrack analysis [J].Scripta Metall,1995,33(3): 467-472.
  • 7[7]Pu Z J,Liu Y Q.In-situ observation of microcracking in a TiAl-Cr-V alloy under compressive stress [A].MRS symposium Proceeding [C].1995.1041-1046.
  • 8[8]Koerpe C.General aspects of the thermomechanical treatment of two-phase intermetallic TiAl compounds [J].Metall and Mater Trans A,1993,24A: 1795-1806.
  • 9[9]BAI Yi-long(白以龙),KE Fu-jiu(柯孚久).The basically description of statistical evolvement of microcrack system in solids [J].Acta Mech Sinica(力学学报),1991,23(3): 290-297.
  • 10[10]Chan K S.Tensile ductility of extrinsically toughened intermetallics [J].Metall Mater Trans,1994,25A: 299-308.

同被引文献91

引证文献7

二级引证文献29

中国有色金属学报
2001年 第z2期

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