A magnetically soft yet mechanically strong and ductile Ta free CoFeNi high entropy alloy with Al and Ti additions
Artikel i vetenskaplig tidskrift, 2026

Next generation high speed, large torque, rotating electrical machines demand materials with an excellent balance of magnetic and mechanical properties. High entropy alloys (HEAs) can exhibit this unique combination of properties, e.g., CoFeNi based HEAs containing Ta. The high Ta content makes these alloys prohibitively expensive for industrial applications. Hence, we develop Ta free HEA using a thermodynamic approach. The addition of Al and Ti to the base CoFeNi alloy is studied. We investigate two compositions: Ti0.24CoFeNi0.78 and Al0.3Ti0.2CoFeNi. In their solution treated and quenched condition these HEAs exhibit a low coercivity H-c similar to 1.8-2.4 Oe, high saturation magnetization M-s similar to 96.5-137.3 emu/g, coupled with a high yield strength, YS similar to 780-850 MPa, ultimate tensile strength, UTS similar to 1200 MPa, large tensile elongation, epsilon similar to 29-35%, and with desired high electrical resistivity (similar to 269.5-308.3 mu Omega.cm), making them attractive for high frequency electrical machines. Importantly, the latter HEA is further strengthened to a very high YS similar to 1140-1200 MPa with excellent ductility (epsilon similar to 18-25%) and electrical resistivity (296.1-459.3 mu Omega.cm), but at the cost of higher H-c values similar to 8.8-48.6 Oe.

Författare

Sudip Kumar Sarkar

Univ North Texas, Ctr Agile & Adapt Addit Mfg

Nachiket Keskar

University of North Texas

Li Ping Tan

Nanyang Technological University

Tirthesh Ingale

University of North Texas

Univ North Texas, Ctr Agile & Adapt Addit Mfg

Advika Chesetti

University of North Texas

Sriswaroop Dasari

University of North Texas

Univ Texas El Paso, Dept Met Mat & Biomed Engn

Karl P. Davidson

Nanyang Technological University

Curtin University

Varun Chaudhary

Chalmers, Industri- och materialvetenskap, Material och tillverkning

Forskning Andra publikationer

Narendra Dahotre

University of North Texas

Univ North Texas, Ctr Agile & Adapt Addit Mfg

R. V. Ramanujan

Nanyang Technological University

Rajarshi Banerjee

Nanyang Technological University

University of North Texas

Univ North Texas, Ctr Agile & Adapt Addit Mfg

Nature Communications

2041-1723 (ISSN) 20411723 (eISSN)

Vol. 17 1 2890

Ämneskategorier (SSIF 2025)

Materialkemi

Metallurgi och metalliska material

Polymerkemi

Annan kemi

Oorganisk kemi

DOI

10.1038/s41467-026-68891-6

Publikationsdata kopplat till DOI

PubMed

41644543

Mer information

Senast uppdaterat

2026-04-09

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