Microstructure and Magnetic Field Induced Strain of Directionally Solidified Ferromagnetic Shape Memory CoNiAl Alloys

J. LIU; H. ZHENG; Y. HUANG

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Microstructure and Magnetic Field Induced Strain of Directionally Solidified Ferromagnetic Shape Memory CoNiAl Alloys

机译：定向凝固铁磁形状记忆CoNiAl合金的微观结构和磁场感应应变

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This paper investigates the microstructure evolution in directionally solidified ferromagnetic shape memory Co_(37)Ni_(34)Al_(29) alloys by changing the solidification conditions and heat treatment process. From optical microscopy observations, the martensitic transformation temperature can be controlled by the composition of the matrix, and is especially dependent on the Al content. In addition, a preferred (110) orientation for the parent phase was obtained at the pulling rate of 25 mu m/s and a relatively large 130 ppm strain in the single martensite polycrystalline CoNiAl was induced by an external magnetic field up to 7 kOe.

机译：通过改变凝固条件和热处理工艺，研究了定向凝固铁磁形状记忆Co_（37）Ni_（34）Al_（29）合金的微观组织演变。从光学显微镜观察，马氏体转变温度可以通过基质的组成来控制，并且尤其取决于Al的含量。另外，以25μm/ s的牵引速率获得了母相的优选（110）取向，并且通过高达7kOe的外部磁场在单马氏体多晶CoNiAl中引起了相对较大的130ppm的应变。

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《Scripta materialia》 |2005年第1期|共5页
作者
J. LIU; H. ZHENG; Y. HUANG;
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原文格式 PDF
正文语种 eng
中图分类金属学与热处理;
关键词
Microstructure; Directional solidification; CoNiAl; Ferromagnetic shape memory alloy; Magnetic field induced strain;

机译：显微组织;定向凝固;CoNiAl;铁磁形状记忆合金;磁场感应应变;

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1. Microstructure and Magnetic Field Induced Strain of Directionally Solidified Ferromagnetic Shape Memory CoNiAl Alloys [J] . J. LIU, H. ZHENG, Y. HUANG Scripta materialia . 2005,第1期

机译：定向凝固铁磁形状记忆CoNiAl合金的微观结构和磁场感应应变
2. Effects of demagnetization on Magnetic-Field-Induced Strain and microstructural evolution in Ni-Mn-Ga Ferromagnetic Shape Memory Alloy by phase-field simulations [J] . Peng Qi, Huang Junjie, Chen Mingxiang Materials & design . 2016,第octa5期

机译：退磁对Ni-Mn-Ga铁磁形状记忆合金的磁场感应应变和组织演变的影响
3. Phase-field simulations of magnetic field-induced strain in Ni₂MnGa ferromagnetic shape memory alloy [J] . P.P.Wuab*X.Q.MaaJ.X.ZhangbL.Q.Chenb Philosophical Magazine . 2011,第16期

机译：Ni _{2 MnGa铁磁形状记忆合金中磁场引起的应变的相场模拟}
4. Magnetic-Field-Induced Strain of Fe-based Ferromagnetic Shape-Memory Alloy in a Pulsed Magnetic Field [C] . Takuo Sakon, Takashi Fukuda, Hiroyuki Nojiri, MRS fall meeting . 2008

机译：脉冲磁场中铁基铁磁形状记忆合金的磁场感应应变
5. Development of Cobalt-Nickel-Gallium Ferromagnetic Shape Memory Alloys (FSMAs) by Investigating the Effects of Solidification Processing Parameters. [D] . Kalaantari, Haamun. 2013

机译：通过研究凝固工艺参数的影响，开发钴镍镓铁磁形状记忆合金（FSMA）。
6. Magnetic Properties of the Ferromagnetic Shape Memory Alloys Ni50+xMn27−xGa23 in Magnetic Fields [O] . Takuo Sakon, Kohei Otsuka, Junpei Matsubayashi, 2014

机译：磁场中铁磁形状记忆合金Ni50 + xMn27-xGa23的磁性
7. Determination of Magnetic Field Induced Strain in CoNiAl based Ferromagnetic Shapememory Alloy using Strain Gauge [O] . B Rajini Kanth, P.K. Mukhopadhyay 2013

机译：使用应变计的殖民基铁磁形状记忆合金中磁场诱导应变的测定

Microstructure and Magnetic Field Induced Strain of Directionally Solidified Ferromagnetic Shape Memory CoNiAl Alloys

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