Kinetics of crystallization of FeB-based amorphous alloys studied by neutron thermo-diffractometry

TL;DR

This study investigates the crystallization kinetics of FeB-based amorphous alloys using neutron thermodiffractometry, revealing detailed phase transformation pathways and their magnetic implications.

Contribution

It provides new insights into the two-step crystallization processes and phase transformations in FeB-based amorphous alloys using neutron diffraction techniques.

Findings

Fe70Cr10B20 crystallizes via a two-step process involving eutectic transformations.

Cr atoms influence the crystalline phases and magnetic properties.

Fe80Zr10B10 also undergoes two polymorphic transformations.

Abstract

Kinetics of crystallization of two amorphous alloys, Fe70Cr10B20 and Fe80Zr10B10, have been followed up by neutron thermodiffractometry experiments performed in the two axis diffractometer D20 (ILL, Grenoble). The structural changes are directly correlated with the temperature dependence of the magnetization. Fe70Cr10B20 crystallizes following a two-step process: an eutectic crystallization of alfa-Fe (bcc) and the metastable tetragonal phase (Fe0.8Cr0.2)3B followed by another eutectic transformation to the stable phase (Fe0.75Cr0.25)2B and more segregation of alfa-Fe. These tetragonal phases are magnetically anisotropic, giving rise to a large increase of the coercivity. This behaviour is similar to that of Fe80B20 alloys, with Cr atoms replacing the Fe positions in both crystalline phases. Fe80Zr10B10 shows also a two-step process in which two polymorphic transformations take place.