采用单辊旋淬法制备了3种不同组成的 Fe基形状记忆合金(shape memory alloy,SMA):Fe-30Mn-6Si、Fe-30Mn-6Si-1Ni、Fe-30Mn-6Si-1Ni-1Ti.采用X射线衍射仪(XRD)、金相显微镜(OM)、扫描电子显微镜(SEM)分析了合金的成分及结构,通过拉伸实验测量合金的形状恢复率.结果表明,在 Fe-30Mn-6 Si合金中,除奥氏体晶粒外出现少量枝晶偏析,其二次枝晶臂间距为0.2μm. Fe-30Mn-6Si-1Ni、Fe-30Mn-6Si-1Ni-1Ti中等轴奥氏体晶粒均匀分布,且后者晶粒较大.预变形量为1%,1.5%时,Fe-30Mn-6Si-1Ni的形状恢复率高于 Fe-30Mn-6Si-1Ni-1Ti;预变形量为2%时,Fe-30Mn-6Si-1Ni-1Ti 的形状恢复率高于Fe-30Mn-6Si-1Ni;预变形量为3%时,Fe-30Mn-6Si-1 Ni-1 Ti的形状恢复率出现最大值2%.
Three kinds of SMAs with different composition Fe-30Mn-6Si,Fe-30Mn-6Si-1Ni,and Fe-30Mn-6Si-1 Ni-1 Ti were prepared with melt spinning.The microstructure of these alloys were analysed with X-ray diffrac-tion (XRD),optical microscope (OM)and scanning-electron microscope (SEM),the shape recovery strain of the alloys were measured by tensile test.Dendrite spikes appears in Fe-30Mn-6Si,the dendrite arm spacing was about 0.2μm.Equiaxial austenite grains distributed uniformly in Fe-30Mn-6Si-1Ni and Fe-30Mn-6Si-1Ni-1Ti, the grain size in Fe-30Mn-6Si-1Ni-1Ti was bigger.When the pre-strain was 1% and 1.5%,the shape recovery strain of Fe-30Mn-6Si-1Ni was higher than Fe-30Mn-6Si-1Ni-1Ti.When the pre-strain was 2%,the shape re-covery strain of Fe-30Mn-6Si-1Ni-1Ti is higher than Fe-30Mn-6Si-1Ni.The Fe-30Mn-6Si-1Ni-1Ti shows the highest shape recovery strain 2% when then pre-strain was 3%.
参考文献
| [1] | Jaronie Mohd Jani;Martin Leary;Aleksandar Subic;Mark A. Gibson .A review of shape memory alloy research, applications and opportunities[J].Materials & design,2014(Apr.):1078-1113. |
| [2] | Hao Yin;Yongjun He;Qingping Sun.Effect of deformation frequency on temperature and stress oscillations in cyclic phase transition of NiTi shape memory alloy[J].Journal of the Mechanics and Physics of Solids,2014:100-128. |
| [3] | Cladera A;Weber B;Leinenbac C et al.Iron-based shape memory alloys for civil engineering structures:an overview[J].Construction Building Materials,2014,63:281-293. |
| [4] | Min X H;Sawaguchi T;Ogawa K et al.An attempt to lower Mn content of Fe-17Mn-6Si-0.3C shape memory alloy[J].Journal of Alloys Compounds,2013,557S:S478-S482. |
| [5] | T. Maruyama;T. Kurita;S. Kozaki .Innovation in producing crane rail fishplate using Fe-Mn-Si-Cr based shape memory alloy[J].Materials Science and Technology,2008(8):908-912. |
| [6] | Akikazu Sato;Hiroshi Kubo;Tadakatsu Maruyama .Mechanical Properties of Fe-Mn-Si Based SMA and the Application[J].Materials transactions,2006(3):571-579. |
| [7] | 卢棋,何国球,陈淑娟,刘晓山,杨洋,袁永立,朱旻昊.热机械训练对Fe-Mn-Si系形状记忆合金记忆效应及组织结构的影响[J].功能材料,2014(04):4076-4078,4083. |
| [8] | BIKAS C. MAJI;MADANGOPAL KRISHNAN;GOUTHAMA .Role of Si in Improving the Shape Recovery of FeMnSiCrNi Shape Memory Alloys[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,2011(8):2153-2165. |
| [9] | Ariapour A;Yakubtsov I;Perovic D D .Shape-memory effect and strengthening mechanism in a Nb and N-doped Fe-Mn-Si-based alloy[J].Metallurgical and Materials Transactions A-Physical Metallurgy and Materials Sci-ence,2011,32(07):1621-1628. |
| [10] | Yang Jun;Deng Longjiang;Wang Xin et al.The influ-ence of rapidly solidification on the structure and proper-ty of the Fe-Mn-Si base shape memory alloy[J].Journal of Function Materials,2011,42(04):711-713,717. |
| [11] | Druker, A.;La Roca, P.;Vermaut, P.;Ochin, P.;Malarría, J..Microstructure and shape memory properties of Fe-15Mn-5Si-9Cr-5Ni melt-spun ribbons[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2012:936-945. |
| [12] | Valeanu M;Filoti G;Kuncser V et al.Shape memory and associated properties in Fe-Mn-Si-based ribbons pro-duced by melt-spinning[J].Journal of Magnetism and Magnetic Materials,2008,320(14):164-167. |
| [13] | K. Nagashio;K. Kuribayashi .Experimental verification of ribbon formation process in chill-block melt spinning[J].Acta materialia,2006(9):2353-2360. |
| [14] | C.T. Hu;T. Goryczka;D. Vokoun .Effects of the spinning wheel velocity on the microstructure of Fe-Pd shape memory melt-spun ribbons[J].Scripta materialia,2004(4):539-542. |
| [15] | Min, X.H.;Sawaguchi, T.;Ogawa, K.;Maruyama, T.;Yin, F.X.;Tsuzaki, K. .Shape memory effect in Fe-Mn-Ni-Si-C alloys with low Mn contents[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2011(15):5251-5258. |
| [16] | Motomichi Koyama;Takahiro Sawaguchi;Kaneaki Tsuzaki.Microstructure characteristic and its effect on mechanical and shape memory properties in a Fe-17Mn-8Si-0.3C alloy[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2013:15-19. |
| [17] | Stanford N;Dunne DP .Effect of NbC and TiC precipitation on shape memory in an iron-based alloy[J].Journal of Materials Science,2006(15):4883-4891. |
| [18] | N. Stanford;D.P. Dunne .Effect of second-phase particles on shape memory in Fe-Mn-Si-based alloys[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2007(0):407-415. |
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