Structural and Magnetic Characterization of Fe–Mn–Al–Ni Pseudo-Heusler Alloy

Mino J.; Komanicky V.; Durisin M.; Saksl K.; Kovac J.; Varga R.

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Structural and Magnetic Characterization of Fe–Mn–Al–Ni Pseudo-Heusler Alloy

机译：Fe–Mn–Al–Ni伪Heusler合金的结构和磁特性

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In this paper, the production and structural, superelastic, thermoelastic, and magnetic properties of melt-spun FeMnAlNi alloy have been investigated with the aim to employ it for contactless strain measurements. Structural properties were observed by scanning electron microscope and X-ray diffraction, which shows the existence of two phases (fcc and bcc). Magnetic properties were studied by vibrating sample magnetometer and LCR-Bridge. Superelasticity was investigated by straining a ribbon. Measured superelastic strain at room temperature was %. Within that range we achieved 12% change of permeability that arises from the structural transition between two recognized phases. It proves that FeMnAlNi superelastic alloy is a promising potential contactless sensor of strain.

机译：在本文中，已经研究了熔纺FeMnAlNi合金的生产和结构，超弹性，热弹性和磁性能，目的是将其用于非接触应变测量。通过扫描电子显微镜和X射线衍射观察结构特性，这表明存在两个相（fcc和bcc）。通过振动样品磁力计和LCR-Bridge研究了磁性。通过拉紧条带研究超弹性。在室温下测得的超弹性应变为％。在此范围内，我们实现了由两个公认的相之间的结构转变引起的渗透率变化12％。证明了FeMnAlNi超弹性合金是一种有希望的潜在的非接触式应变传感器。

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《Magnetics, IEEE Transactions on》 |2015年第1期|1-3|共3页
作者
Mino J.; Komanicky V.; Durisin M.; Saksl K.; Kovac J.; Varga R.;
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作者单位

Faculty of Sciences, Institute of Physics, Univerzita Pavla Jozefa ??af??rika v Ko??iciach, Košice, Slovakia;

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正文语种 eng
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Magnetic hysteresis; Magnetomechanical effects; Metals; Permeability; Strain; Stress; Temperature measurement; Contactless sensor; Heusler alloy; magnetic material; superelasticity;

机译：磁滞;磁机械效应;金属;磁导率;应变;应力;温度测量;非接触式传感器;赫斯勒合金;磁性材料;超弹性;
入库时间 2022-08-17 13:03:28

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Structural and Magnetic Characterization of Fe–Mn–Al–Ni Pseudo-Heusler Alloy

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