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Influence of heat treatment on microstructure and magnetic properties of laser powder bed fusion generated NdFeB magnets

Kübra Genç, Iain Todd, Kamran Mumtaz

2025Progress in Additive Manufacturing11 citationsDOIOpen Access PDF

Abstract

Abstract Laser powder bed fusion (L-PBF) presents a promising technique for producing neodymium–iron–boron (NdFeB) magnets. However, the magnetic properties of L-PBF-generated magnets remain inferior to those of their sintered counterparts. To address this, post-processing techniques, such as heat treatment, could enhance the magnetic properties of L-PBF-fabricated NdFeB magnets. This study examines the effects of post-heat treatment on the density, magnetic properties, and microstructure of samples produced using MQP-S-11-9-20001 powder. Archimedes density measurements indicate an improvement of up to 5% in density following heat treatment, corroborated by optical images showing decreased porosity. Analysis of magnetic properties reveals an increase in remanence ( B r ) alongside a decrease in coercivity ( H ci ). Microstructural analysis indicates variations in grain size and morphology, with more distinct grain boundaries contributing to enhanced coercivity. The study also highlights challenges in analyzing high-temperature treated samples, particularly due to their extreme sensitivity to oxygen and etching difficulties. Despite these challenges, the findings offer valuable insights into how heat treatment affects the microstructure of L-PBF-generated NdFeB magnets and the resultant changes in their magnetic properties.

Topics & Concepts

Neodymium magnetCoercivityMaterials scienceMicrostructureMagnetRemanenceGrain sizePorosityComposite materialMetallurgyMagnetizationMagnetic fieldCondensed matter physicsPhysicsQuantum mechanicsMagnetic Properties of AlloysRare-earth and actinide compoundsHydrogen Storage and Materials
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