Akademik Məlumat İdarəetmə Sistemi
Intermetallics, vol.23, pp.217-227, 2012 (SCI-Expanded, Scopus)
The aim of this study is to investigate the influence of 3d transition metal (Co, Mn and V) microalloying on the microstructural evolution, thermomagnetic properties and kinetics of nanoscale precipitation in Ni-25Al-25Fe alloy. The three phase solidification microstructure comprising of dendritic β-phase (ordered bcc) and interdendritic β + γ (disordered fcc) + γ′ (ordered fcc) phases in the as-cast state is significantly altered by annealing. Needle-like disordered γ-phase precipitates are observed within β-phase dendrites, and, dissolution of ordered γ′-phase into the γ matrix promotes the growth of β-phase particles in the interdendritic region of Mn- and Co-modified alloys. Disappearance of dendritic microstructure and formation of large volume fraction needle-like disordered γ-phase precipitates within β-matrix are observed in V-modified alloy. In all studied alloys, annealing at an intermediate temperature promotes significant hardening of the β-phase associated with bcc α-phase precipitation at the nanoscale. Isothermal precipitation kinetics of the ferromagnetic α-phase is studied by a magnetic monitoring approach via magnetically assessed time-temperature- transformation diagrams. It is found that V microalloying suppresses the growth of α-phase precipitates at high temperatures and large transformed fractions serving as a promising route to maintain balanced mechanical properties for long-term high temperature applications. © 2011 Elsevier Ltd. All rights reserved.