Research Article

Fabrication of equiatomic FeCo alloy parts with high magnetic properties by fields activated sintering

¹ School of Mechanical Engineering, Sichuan University, Chengdu 610065, P.R. China
² Centre for Precision Manufacturing, Dept. of Design, Manufacturing and Engineering Management, The University of Strathclyde, Glasgow G1 1XJ, UK

^* e-mail: wumingxia@scu.edu.cn

Received: 2 December 2021
Accepted: 15 January 2022

Abstract

Electrical field activated sintering technology combined with micro-forming (Micro-FAST), as a new rapid powder sintering/forming method, is used to fabricate FeCo alloy parts. The successfully prepared FeCo parts have a high saturation of 214.11 emu/g and a low coercivity of 16 Oe, and these values are 20% and 10% higher than that of commercially available FeCoV alloy parts on the saturation and coercivity respectively. During the sintering process, the high current application shortened the densification time and enhanced the uniformity of the microstructure significantly. The grain sizes of FeCo alloys were in a range of 5–6 µm, and good isotropy was also shown. The low angle grain boundary (LAGB) accounted for more than 30% and the low angle misorientation accounted for more than 30% of the sample parts. Furthermore, the formation of the nano B2 phase was promoted during the Micro-FAST, and the size of the B2 phase was about 5 nm. The coherent interface between α and B2 was conducive for reducing the coercivity. As a consequence, the outstanding microstructure formed by Micro-FAST makes the FeCo alloys have high saturation and low coercivity.