Litcius/Paper detail

Additive Manufacturing of Textured FePrCuB Permanent Magnets

D. Goll, Felix Trauter, Ralf B. Loeffler, Thomas Groß, Gerhard Schneider

2021Micromachines20 citationsDOIOpen Access PDF

Abstract

Permanent magnets based on FePrCuB were realized on a laboratory scale through additive manufacturing (laser powder bed fusion, L-PBF) and book mold casting (reference). A well-adjusted two-stage heat treatment of the as-cast/as-printed FePrCuB alloys produces hard magnetic properties without the need for subsequent powder metallurgical processing. This resulted in a coercivity of 0.67 T, remanence of 0.67 T and maximum energy density of 69.8 kJ/m3 for the printed parts. While the annealed book-mold-cast FePrCuB alloys are easy-plane permanent magnets (BMC magnet), the printed magnets are characterized by a distinct, predominantly directional microstructure that originated from the AM process and was further refined during heat treatment. Due to the higher degree of texturing, the L-PBF magnet has a 26% higher remanence compared to the identically annealed BMC magnet of the same composition.

Topics & Concepts

MagnetRemanenceCoercivityMaterials scienceMicrostructureMoldNeodymium magnetMetallurgyCastingComposite materialMechanical engineeringMagnetic fieldMagnetizationCondensed matter physicsEngineeringPhysicsQuantum mechanicsMagnetic Properties of AlloysMetallurgical and Alloy ProcessesMagnetic properties of thin films