Predicting electrical conductivity in bi-metal composites

arXiv - PHYS - Materials Science Pub Date : 2024-09-06 DOI:arxiv-2409.04655
Daniel N. Blaschke, John S. Carpenter, Abigail Hunter
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Abstract

Generating high magnetic fields requires materials with not only high electric conductivity, but also good strength properties in order to withstand the necessarily strong Lorentz forces. A number of bi-metal composites, most notably Cu/Nb, are considered to be good candidates for this purpose. Here, we generalize our previous work on Cu/Nb in order to predict, from theory, the dependence of electric conductivity on the microstructure and volume fraction of the less conductive component for a number of other bi-metal composites. Together with information on strength properties (taken from previous literature), the conductivity information we provide in this work can help to identify new promising candidate materials for magnet applications with the highest achievable field strengths.
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预测双金属复合材料的导电性
产生高磁场不仅需要材料具有较高的导电性,还需要材料具有良好的强度特性,以承受强大的洛伦兹力。许多双金属复合材料,尤其是铜/铌复合材料,被认为是实现这一目的的良好候选材料。在此,我们将以前在铜/铌方面的研究成果加以推广,以便从理论上预测导电率对其他一些双金属复合材料的微观结构和导电率较低成分的体积分数的依赖性。
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arXiv - PHYS - Materials Science
arXiv - PHYS - Materials Science
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