Compression and compression-compression cyclic deformation properties of ferromagnetic Ni_2MnGa-based shape memory alloy

机译：Ni磁性Mn_2MnGa基形状记忆合金的压缩压缩压缩循环变形特性

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Ferromagnetic Ni-25at%Mn-23at%Ga shape memory (SM) alloy was fabricated compositionally uniformly in vacuum using an electric furnace, and its polycrystalline specimens were deformed monotonically in compression and cyclically in compression-unloading -heating-cooling mode at room temperature. Polycrystals deformed in compression at various temperatures showed perfect SM effects and superelastic behavior, and using Clausius-Clapayron relationship, the martensite and its reverse transformation temperatures were determined. Polycrystals failed within several cycles when deformed cyclically at above Mf point, while no failure occurred up to 100 cycles at strain amplitudes between 1.1 and 4.4% when deformed cyclically at near M_s point, although intergranular fracture occurred. The result suggests the Ni_2MnGa alloy should be intrinsically ductile.

机译：使用电炉在真空中均匀地组成铁磁性Ni-25at％Mn-23at％Ga形状记忆（SM）合金，并在室温下以压缩-卸载-加热-冷却模式将其多晶试样压缩压缩并循环循环变形。。在不同温度下压缩变形的多晶体表现出完美的SM效应和超弹性行为，并利用克劳修斯-克拉帕龙关系确定马氏体及其逆相变温度。当在Mf点以上循环变形时，多晶在几个周期内失效，而在M_s点附近循环变形时，在1.1至4.4％的应变幅度下，直到100个循环都没有发生失效，尽管发生了晶间断裂。结果表明，Ni_2MnGa合金应具有固有的延展性。

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《International Conference on Processing amp; Manufacturing of Advanced Materials Pt.3; Jul 7-11, 2003; Leganes, Madrid, Spain》|2003年|p.2207-2212|共6页
会议地点 Madrid(ES);Madrid(ES)
作者
Takashi Kira; Kinzo Murata; Tamotsu Shimada; Soon-jong Jeong; Shozo Inoue; Keiji Koterazawa; Kanryu Inoue;
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作者单位

Mechanical and Intelligent Engineering, Himeji Institute of Technology, Himeji, Hyogo 671-2201, Japan;

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原文格式 PDF
正文语种 eng
中图分类一般工业技术;
关键词
cyclic deformation; ferromagnetic SMAs; Ni_2MnGa heusler compound; magnetic field induced martensite; effect of magnetic field on deformation properties;

机译：循环变形;铁磁SMAs; Ni_2MnGa Heusler化合物;磁场诱导马氏体;磁场对变形性能的影响;

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2. Microstructure of NiTi shape memory alloy due to tension-compression cyclic deformation [J] . Zelang Xie, Yong Liu, J.Van Humbeeck Acta Materialia . 1998,第6期

机译：拉伸压缩循环变形引起的NiTi形状记忆合金的显微组织
3. INVESTIGATION OF THERMOMECHANICAL PROPERTIES OF FERROMAGNETIC NiFeGa SHAPE MEMORY ALLOY SUBJECTED TO PSEUDOELASTIC COMPRESSION TEST [J] . E. PIECZYSKA, J. DUTKIEWICZ, F. MASDEU, Archives of Metallurgy and Materials . 2011,第2期

机译：伪弹性压缩试验对铁磁性NiFeGa形状记忆合金热力学性能的影响
4. Investigation of Thermomechanical Properties of Ferromagnetic NiFeGa Shape Memory Alloy Subjected to Pseudoelastic Compression Test [J] . E. Pieczyska, J. Dutkiewicz, F. Masdeu, Archives of Metallurgy and Materials . 2011,第2期

机译：铁磁NiFeGa形状记忆合金拟弹性压缩试验的热机械性能研究。
5. Compression and compression-compression cyclic deformation properties of ferromagnetic Ni_2MnGa-based shape memory alloy [C] . Takashi Kira, Kinzo Murata, Tamotsu Shimada, International Conference on Processing Manufacturing of Advanced Materials . 2003

机译：基于铁磁Ni_2mnga形状记忆合金的压缩和压缩 - 压缩循环变形性能
6. Elastic deformations in shape memory alloy fiber-reinforced composites. [D] . Fan, Xinjian. 2001

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机译：磁场中铁磁形状记忆合金Ni50 + xMn27-xGa23的磁性
8. Cyclic Deformation Properties of TiNi Shape Memory Alloy. Shape Memory Effect due to Martensitic and R-Phase Transformations. [O] . Akira Ikai, Hisaaki Tobushi, Ping-Hua Lin, 1995

机译：TINI形状记忆合金的循环变形特性。由于马氏体和r相变化引起的形状记忆效应。

Compression and compression-compression cyclic deformation properties of ferromagnetic Ni_2MnGa-based shape memory alloy

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