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Rapid multiple property determination from bulk materials libraries prepared from chemically synthesized powders

Li Ping Tan, Varun Chaudhary, Zviad Tsakadze, R.V. Ramanujan

2022Scientific Reports17 citationsDOIOpen Access PDF

Abstract

Abstract A variety of high-performance materials are utilized in electrical, electronic, and mechanical systems. Such systems account for a significant fraction of the world’s electricity consumption. The next generation of such systems urgently require new material compositions which possess a better combination of both structural and functional properties. Only accelerated methodologies can rapidly determine the required multiple property set. Hence, a range of iron–cobalt–nickel ternary alloy composition powders were chemically synthesized. Compositionally graded bulk materials libraries were prepared by spark plasma sintering of these powders. A multiple property set of the crystal structure, magnetic, mechanical, and electrical properties were determined for a range of compositions. This property set revealed that a good combination of magnetic and mechanical properties can be obtained from Fe 50 Co 40 Ni 10 , high electrical resistivity from Fe 54 Co 17 Ni 29 and high saturation magnetization as well as high hardness from Fe 57 Co 29 Ni 14 . Thus, this multiple property library, developed by accelerated methodologies, can be utilized to identify new ternary compositions satisfying diverse property sets relevant to next generation systems.

Topics & Concepts

Spark plasma sinteringMaterials sciencePhysical propertyTernary operationElectrical resistivity and conductivityAlloySinteringComputer scienceMetallurgyComposite materialElectrical engineeringEngineeringProgramming languageHigh Entropy Alloys StudiesMetallic Glasses and Amorphous AlloysAdvanced materials and composites
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