Functional Properties of Fe-Ni-Co-Ti Nanocomposite under the Influence of Temperature and Mechanical Stress

A. Titenko, L. Demchenko, M. Babanli, Tymur Bykanov, Oleksii Titenko, S. Huseynov
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Abstract

The paper presents the functional properties of new Fe-Ni-Co-Ti shape memory nanocomposite, formed as a result of supersaturated solid solution aging. It was found that Fe-Ni-Co-Ti alloys in certain intervals exhibit unusual deformation and electrical effects when exposed to temperature and mechanical stresses. The reasons and factors that contribute to the achievement of large superelastic deformations and reactive stresses are analyzed. The appearance of differential thermo-emf (thermo-electromotive force) signals during the induction of martensitic transformation is studied experimentally. A correlation has been established between the temperature dependences of the differential thermo-emf and the electrical resistance of the studied alloy. Unique thermal power and the effect of deformation on electrical properties are able to compete with mechanical power drives, tools and signaling devices. Their uniqueness lies in the ability to reversibly restore the original shape and dimensions under thermal power loading conditions and, at the same time, perform useful work, signaling changes in external conditions. The formation of the required structure and functional properties is facilitated by the formation of a system of dispersed particles.
温度和机械应力影响下Fe-Ni-Co-Ti纳米复合材料的功能特性
本文介绍了过饱和固溶时效形成的新型Fe-Ni-Co-Ti形状记忆纳米复合材料的功能性能。结果表明,Fe-Ni-Co-Ti合金在温度和机械应力作用下,在一定范围内表现出不同寻常的变形和电效应。分析了产生大超弹性变形和反应应力的原因和因素。实验研究了马氏体相变诱导过程中热电动势微分信号的出现。在热电动势差的温度依赖性和所研究合金的电阻之间建立了相关性。独特的热功率和变形对电性能的影响能够与机械动力驱动,工具和信号装置竞争。它们的独特之处在于能够在热负荷条件下可逆地恢复原始形状和尺寸,同时执行有用的工作,指示外部条件的变化。分散粒子体系的形成促进了所需结构和功能特性的形成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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