基于快速成形技术的多组分Invar合金组合开发

AMI: Acta Materialia Pub Date : 2021-01-01 DOI:10.2139/ssrn.3920957

Z. Rao, H. Springer, D. Ponge, Zhiming Li

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引用次数: 4

摘要

为了在多组分合金几乎无限的组成空间中开发新型Invar合金，采用快速成形技术对5种含5 at的多组分Invar合金进行了研究。Al、Cr、Cu、Mn和Si在超级Invar合金(Fe 63 Ni 32 Co 5)中的添加量分别为。%)。所有合金均表现出低于居里温度的异常低的热膨胀系数和偏离Slater-Pauling曲线的饱和磁化，显示出其invar行为。讨论了各种多组分合金的价电子浓度、磁性能和因瓦尔行为之间的关系。添加Cu的Invar合金尤其有前景，与传统的超级Invar合金相比，其热膨胀系数(<5.87×10 -6 K)的温度范围(高于室温)增加了40 K，硬度提高了2.8%。因此，这项工作也成功地证明了使用快速合金原型技术开发多组分多功能合金的能力。

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Combinatorial Development of Multicomponent Invar Alloys Via Rapid Alloy Prototyping

To develop novel Invar alloys in the practically infinite compositional space of multicomponent alloys, rapid alloy prototyping is used to investigate five multicomponent Invar alloys with 5 at.% addition of Al, Cr, Cu, Mn and Si to a super Invar alloy (Fe 63 Ni 32 Co 5 ; at.%), respectively. All alloys show abnormally low thermal expansion coefficients below the Curie temperature and saturation magnetization deviating from the Slater-Pauling curve, revealing their Invar-behavior. The relationships among valence electron concentration, magnetic properties, and Invar behavior of the various multicomponent alloys are discussed. The Invar alloy with Cu addition is particularly promising, as it shows a 40 K larger temperature range (above room temperature) of low thermal expansion coefficient (<5.87×10 -6 K) and 2.8% higher hardness compared to the conventional super Invar alloy. The work thus also successfully demonstrates the capability of using rapid alloy prototyping for developing multicomponent multi-functional alloys.

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AMI: Acta Materialia

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