研究了(Cu50Zr50)92Al8非晶合金在过冷液相区中,经过牛顿流变和非牛顿流变后的等温晶化行为及其对该合金力学性能的影响。结果表明,牛顿型流变对(Cu50Zr50)92Al8非晶合金的结构没有明显的影响;而非牛顿流变对该非晶的显微结构及其等温晶化行为有显著影响:非牛顿流变促进了(Cu50Zr50)92Al8非晶合金的晶化,其主要晶化相为体心立方结构的CuZr相(B2相)和CuZr马氏体相;经非牛顿流变及真空热处理试样,在室温压缩过程中,应力诱发了部分B2相的马氏体相变,从而使其在室温下表现出超弹性,当预塑性应变量为8%时,其总可回复应变为5%左右。
Effects of deformation on isothermal crystallization behavior and mechanical properties of a Cu-based amorphous alloy ( ( Cu50Zr50)92Al8 ) undergoes Newtonian and non-Newtonian plastic deformation in the super cooled liquid region were investigated. The results indicate that the Newtonian deformation has no influence on the microstructure of the amorphous alloy. However, non-Newtonian deformation can promote the isothermal crystallization process of the alloy, The main isothermal crystallization products are the CuZr phase with a cubic structure ( B2 phase) and its martensitic phase. The alloy after the non-Newtonian deformation and the isothermal annealing exhibits the super elasticity during compression test at room temperature, which is caused by the stress induced martensitic transformation. The total recovery strain is about 5% as applied strain is 8%.
参考文献
| [1] | Inoue A.;Zhang W.;Zhang T.;Kurosaka K. .Cu-based bulk glassy alloys with high tensile strength of over 2000 MPa[J].Journal of Non-Crystalline Solids: A Journal Devoted to Oxide, Halide, Chalcogenide and Metallic Glasses, Amorphous Semiconductors, Non-Crystalline Films, Glass-Ceramics and Glassy Composites,2002(1/3):200-209. |
| [2] | 马国芝,陈鼎,陈振华,李玮.深冷处理对Cu46 Zr46 Al8非晶复合材料组织与性能的影响[J].材料热处理学报,2010(11):1-6. |
| [3] | Jae-Chul Lee;Kyoung-Won Park;Kyou-Hyun Kim .Origin of the plasticity in bulk amorphous alloys[J].Journal of Materials Research,2007(11):3087-3097. |
| [4] | Jing Q;Liu R P;Shao G J et al.Preparation and super-plastic deformation of the Zr-based bulk metallic glass[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2003,359(1 -2):402-404. |
| [5] | Jan Schroers;Tranquoc Nguyen;Sean O'Keeffe .Thermoplastic forming of bulk metallic glass--Applications for MEMS and microstructure fabrication[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2007(0):898-902. |
| [6] | T. G. NIEH;J. WADSWORTH;C. T. LIU .PLASTICITY AND STRUCTURAL INSTABILITY IN A BULK METALLIC GLASS DEFORMED IN THE SUPERCOOLED LIQUID REGION[J].Acta materialia,2001(15):2887-2896. |
| [7] | Yoshihito Kawamura;Toshihiro Nakamura;Akihisa Inoue .Superplasticity in Pd_(40)Ni_(40)P_(20) metallic glass[J].Scripta materialia,1998(3):301-306. |
| [8] | C.L. CHIANG;J.P. CHU;C.T. LO .Homogeneous plastic deformation in a Cu-based bulk amorphous alloy[J].Intermetallics,2004(10/11):1057-1061. |
| [9] | Shen J;Wang G;Sun J F et al.Superplastic deformation behavior of Zr41,25Ti13,75 Nil0Cu12,5 Be22,5 bulk metallic glass in the supercooled liquid region[J].Intermetallies,2005,13(01):79-85. |
| [10] | T.A.Waniuk;R.Busch;A.Masuhr .Equilibrium viscosity of the Zr_41.2Ti_13.8Cu_12.5Ni_10Be_22.5 bulk metallic glass-forming liquid and viscous flow during relaxation, phase separation, and primary crystallization[J].Acta materialia,1998(15):5229-5236. |
| [11] | T.G.Nieh;T.Mukai;C.T.Liu;J.Wadsworth .SUPERPLASTIC BEHAVIOR OF A Zr-10Al-5Ti-17.9Cu-14.6NiMETALLIC GLASS IN THE SUPERCOOLED LIQUID REGION[J].Scripta materialia,1999(9):1021-1027. |
| [12] | Tian Y B;Lin J G;Li W et al.Deformation behavior of a Cu-based amorphous alloy under different strain rates[J].Journal of Applied Physics,2011,109(08):083508(1-0835085). |
| [13] | GUO Xiao-Lin,SHAN De-Bin,MA Ming-Zhen,GUO Bin.Compressive Deformation Induced Nanocrystallization of a Supercooled Zr-Based Bulk Metallic Glass[J].中国物理快报(英文版),2008(06):2173-2176. |
| [14] | Sun, YF;Shek, CH;Li, FS;Guan, SK .Stress-induced martensitic transformations in CuZrAl bulk metallic glass forming alloys[J].Materials Science and Engineering. A, Structural Materials: Properties, Microstructure and Processing,2008(1/2):31-36. |
| [15] | Zhang D C;Lin J G;Jiang W J et al.Shape memory and superealstic behavior of Ti7,5Nb4MolSn alloy[J].Materials & Design,2011,32(8 -9):4614-4617. |
| [16] | H. Y. Kim;Y. Ikehara;J. I. Kim .Martensitic transformation, shape memory effect and superelasticity of Ti-Nb binary alloys[J].Acta materialia,2006(9):2419-2429. |
| [17] | T. Maeshima;S. Ushimaru;K. Yamauchi;M. Nishida .Effect of heat treatment on shape memory effect and superelasticity in Ti-Mo-Sn alloys[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2006(1/2):844-847. |
| [18] | Hao YL;Li SJ;Sun SY;Zheng CY;Yang R .Elastic deformation behaviour of Ti-24Nb-4Zr-7.9Sn for biomedical applications.[J].Acta biomaterialia,2007(2):277-286. |
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