A perspective magnetic bed comprising Gd alloy multi-microwires for energy-efficient magnetic refrigeration

Abstract

We have designed a new magnetic bed structure with desirable table-like magnetocaloric effect (MCE) by using three kinds of soft ferromagnetic Gd-Al-Co microwire arrays with different Curie temperatures (TC). The TC interval of these three wires is ~10 K and the designed new structure named Sample A. This sample shows a smooth table-like magnetic entropy change ( SM) at high applied field change (μ0 H=5 T) ranging from ~92 K to ~107 K. The maximum entropy change (- SM max) and refrigerant capacity (RC) for Sample A at μ0 H=5 T are calculated to be ~9.42 Jkg-1K-1 and ~676 Jkg-1. The calculated curves of - SM(T) and the corresponding experimental data match well with each other, suggesting that the desirable magnetocaloric properties of the microwire arrays can be designed. Simulation shows that the RC values of the designed systems increase when increasing the interval of TC. The table-like MCE and the enhanced heat-transfer efficiency due to the enhanced surface areas of the microwires make this newly designed magnetic bed very promising for use in energy-efficient magnetic refrigerators.