Ferrous Polycrystalline Shape-Memory Alloy Showing Huge Superelasticity

Y. Tanaka; Y. Himuro; R. Kainuma; Y. Sutou; T. Omori; K. Ishida

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Ferrous Polycrystalline Shape-Memory Alloy Showing Huge Superelasticity

机译：黑色亚铁多晶形状记忆合金，具有巨大的超弹性

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Shape-memory alloys, such as Ni-Ti and Cu-Zn-Al, show a large reversible strain of more than several percent due to superelasticity. In particular, the Ni-Ti-based alloy, which exhibits some ductility and excellent superelastic strain, is the only superelastic material available for practical applications at present. We herein describe a ferrous polycrystalline, high-strength, shape-memory alloy exhibiting a superelastic strain of more than 13%, with a tensile strength above 1 gigapascal, which is almost twice the maximum superelastic strain obtained in the Ni-Ti alloys. Furthermore, this ferrous alloy has a very large damping capacity and exhibits a large reversible change in magnetization during loading and unloading. This ferrous shape-memory alloy has great potential as a high-damping and sensor material.

机译：形状记忆合金（例如Ni-Ti和Cu-Zn-Al）由于超弹性而显示出大于百分之几的大可逆应变。特别地，表现出一些延展性和优异的超弹性应变的Ni-Ti基合金是目前可用于实际应用的唯一超弹性材料。我们在此描述了一种铁多晶，高强度，形状记忆合金，其表现出超过13％的超弹性应变，抗拉强度超过1吉帕斯卡，几乎是Ni-Ti合金中获得的最大超弹性应变的两倍。此外，这种铁合金具有很大的阻尼能力，并且在装卸过程中显示出较大的可逆磁化强度变化。这种铁形状记忆合金具有高阻尼和传感器材料的潜力。

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《Science》 |2010年第5972期|p.1488-1490|共3页
作者
Y. Tanaka; Y. Himuro; R. Kainuma; Y. Sutou; T. Omori; K. Ishida;
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作者单位

Department of Materials Science, Graduate School of Engineering, Tohoku University, Sendai 980-8579, Japan;

Department of Materials Science, Graduate School of Engineering, Tohoku University, Sendai 980-8579, Japan;

Institute of Multidisciplinary Research for Advanced Materials, Tohoku University, Sendai 980-8579, Japan;

Department of Materials Science, Graduate School of Engineering, Tohoku University, Sendai 980-8579, Japan;

Department of Materials Science, Graduate School of Engineering, Tohoku University, Sendai 980-8579, Japan;

Department of Materials Science, Graduate School of Engineering, Tohoku University, Sendai 980-8579, Japan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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正文语种 eng
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入库时间 2022-08-18 02:54:26

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1. Superelastic Effect in Polycrystalline Ferrous Alloys [J] . T. Omori, K. Ando, M. Okano, Science . 2011,第6038期

机译：多晶亚铁合金中的超弹性效应
2. Experimental Investigation of Self-Loosening Behavior of Bolt Joints with Superelastic Shape-Memory Alloy by Macroscopic-Mechanical Response and Microscopic Evolution [J] . Xiangjun Jiang, Jingjing Ba, Zhen Chen, Journal of Engineering Mechanics . 2020,第7期

机译：通过宏观 - 机械响应和微观演化对超弹性形状记忆合金螺栓接头自松感行为的实验研究
3. Effect of deformation on the microstructure, transformation temperature and superelasticity of Ti-23 at% Nb shape-memory alloys [J] . Abdollah Bahador, Esah Hamzah, Katsuyoshi Kondoh, Materials & design . 2017,第mara期

机译：变形对Ti-23 at％Nb形状记忆合金的组织，相变温度和超弹性的影响
4. Microstructural Effect on the Superelastic Behavior of Polycrystalline NCAXB-type Ferrous Alloys [C] . Cheng Zhang, Kenneth Vecchlo International Conference on Shape Memory and Superelastic Technologies . 2017

机译：多晶NcaxB型黑色合金超弹性行为的微观结构效应
5. Fatigue-crack propagation behavior in the shape-memory and superelastic alloy nitinol. [D] . McKelvey, Aindrea Leigh. 1999

机译：形状记忆和超弹性合金镍钛合金中的疲劳裂纹扩展行为。
6. Multi-Response Optimization of WEDM Process Parameters for Machining of Superelastic Nitinol Shape-Memory Alloy Using a Heat-Transfer Search Algorithm [O] . Rakesh Chaudhari, Jay J. Vora, S. S. Mani Prabu, 2019

机译：传热搜索算法加工超弹性镍钛诺形状记忆合金的WEDM工艺参数的多响应优化
7. Rate-dependent Thermo-mechanical Modelling of Superelastic Shape-memory Alloys for Seismic Applications [O] . Doi /x, O Auricchio, Davide Fugazza, 2008

机译：用于地震应用的超弹性形状记忆合金的速率依赖的热力学模型

Ferrous Polycrystalline Shape-Memory Alloy Showing Huge Superelasticity

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