Litcius/Paper detail

Manufacturing Processes for Permanent Magnets: Part I—Sintering and Casting

Jun Cui, John G. Ormerod, David Parker, Ryan Ott, Andriy Palasyuk, S. McCall, M. Paranthaman, Michael S. Kesler, Michael A. McGuire, Ikenna C. Nlebedim, Chaochao Pan, T. A. Lograsso

2022JOM134 citationsDOIOpen Access PDF

Abstract

Abstract Permanent magnets (PMs) produce magnetic fields and maintain the field even in the presence of an opposing magnetic field. Electrical machines using permanent magnets are more efficient than those without. Currently, all known strong magnets contain rare earth (RE) elements, and they are core components of a wide range of applications including electric vehicles and wind turbines. RE elements such as Nd and Dy have become critical materials due to the growing demand and constrained supply. Improving the manufacturing process is effective in mitigating the RE criticality issue by reducing waste and improving parts consistency. In this article, the state of the industry for PM is reviewed in detail considering both the technical and economic drivers. The importance of RE elements is discussed along with their economic importance to green energy. The conventional sintering and casting manufacturing processes for commercial magnets, including Nd-Fe-B, Sm-Co, Alnico, and ferrite, are described in detail.

Topics & Concepts

AlnicoMagnetMaterials scienceSinteringMechanical engineeringEngineering physicsProcess engineeringMetallurgyEngineeringMagnetic Properties of AlloysMetallic Glasses and Amorphous AlloysMetallurgical and Alloy Processes