Phase transition and internal friction behaviors in Mn-doped Co-V-Ga shape memory alloys

IF 7.2 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY Applied Materials Today Pub Date : 2024-09-11 DOI:10.1016/j.apmt.2024.102426
Cong Liu, Hongwei Liu, Zongbin Li, Huaqiu Du, Yueping Wang, Bo Yang, Haile Yan, Liang Zuo
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Abstract

Shape memory alloys with a high abundance of mobile interfaces exhibit remarkable internal friction () behaviors, which can be utilized for the reduction of noise and vibration. In this study, we systematically investigate the martensitic transformation and internal friction behaviors in the Mn-doped CoVGaMn ( = 0 - 10) polycrystalline alloys. Our findings indicate that using Mn to replace V results in decreased transformation temperatures but increased thermal hysteresis. The addition of Mn enhances magnetic exchange interaction, leading to a gradual enhancement in magnetization difference across martensitic transformation, thereby compromising the transformation entropy change and arresting the martensitic transformation. At a frequency of 0.4 Hz, the intensity of transformation peak is enhanced from 0.124 to 0.178 with increasing the Mn content from 0 to 4.5 %, as a result of deteriorated geometrical compatibility between austenite and martensite due to the addition of Mn. Furthermore, hydrogenation treatments substantially improve both the peak intensity and frequency dependence of peak position for the relaxation-type , demonstrating the great contribution from hydrogen-twin boundary interaction.
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掺锰 Co-V-Ga 形状记忆合金中的相变和内摩擦行为
具有大量移动界面的形状记忆合金具有显著的内摩擦()行为,可用于降低噪音和振动。在本研究中,我们系统地研究了掺锰 CoVGaMn ( = 0 - 10) 多晶合金的马氏体转变和内摩擦行为。我们的研究结果表明,用锰替代 V 会降低转变温度,但会增加热滞后。锰的加入增强了磁交换相互作用,导致整个马氏体转变过程中的磁化差逐渐增大,从而影响了转变熵的变化并阻止了马氏体转变。在 0.4 Hz 频率下,随着锰含量从 0% 增加到 4.5%,转变峰的强度从 0.124 增强到 0.178,这是由于锰的加入导致奥氏体和马氏体之间的几何相容性恶化。此外,氢化处理大大改善了弛豫型的峰值强度和峰值位置的频率依赖性,表明氢-孪晶边界相互作用的巨大贡献。
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来源期刊
Applied Materials Today
Applied Materials Today Materials Science-General Materials Science
CiteScore
14.90
自引率
3.60%
发文量
393
审稿时长
26 days
期刊介绍: Journal Name: Applied Materials Today Focus: Multi-disciplinary, rapid-publication journal Focused on cutting-edge applications of novel materials Overview: New materials discoveries have led to exciting fundamental breakthroughs. Materials research is now moving towards the translation of these scientific properties and principles.
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