铁磁形状记忆纳米复合材料的力学性能和结构特征

2020 IEEE 10th International Conference Nanomaterials: Applications & Properties (NAP) Pub Date : 2020-11-09 DOI:10.1109/NAP51477.2020.9309657

A. Titenko, L. Demchenko, M. Babanli, S. Huseynov, V. Huseynov, Oleksii Titenko

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引用次数: 1

摘要

在FeNiCoTi基纳米复合材料中，发现$\gamma\leftrightarrow\alpha$马氏体相变导致超弹性变形积累的应力$(0^{SE})$减小，而超弹性变形$(\varepsilon^{SE})$随着$Tc-Ms$温度区间的增大而增大，体积效应($\Delta$ V/V)的减小导致马氏体相变的温度滞后量($\Delta$ T)相应减小。性能的变化与马氏体相变机制的变化以及含有$\gamma$′相(Ni, $Co)_{3}$)的FeNiCoTi基纳米复合材料结构的变化有关。

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Features of the Mechanical Behavior and Structure of Ferromagnetic Shape Memory Nanocomposites

In nanocomposite based on FeNiCoTi alloy, it was found that the stresses $(0^{SE})$ for the accumulation of superelastic deformation due to $\gamma\leftrightarrow\alpha$ martensitic transformation decrease, while the superelastic deformation $(\varepsilon^{SE})$ increases with an increase in the $Tc-Ms$ temperature interval and a corresponding decrease in the temperature hysteresis ($\Delta$T) of martensitic transformation as a result of a decrease in volume effect ($\Delta$V/V). The change in properties is associated with changes in the mechanism of martensitic transformation, as well as in the structure of FeNiCoTi alloy based nanocomposite containing coherent particles of $\gamma$’- phase (Ni, $Co)_{3}$.

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2020 IEEE 10th International Conference Nanomaterials: Applications & Properties (NAP)

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