Eutectic/eutectoid multi-principle component alloys: a review
Multi-principle component alloys (MPCAs) differ from traditional alloys in that they consist of
four or more elements or components each with concentrations of 5–35 at.%. Since the first …
four or more elements or components each with concentrations of 5–35 at.%. Since the first …
Effects of Al addition on the microstructure and mechanical property of AlxCoCrFeNi high-entropy alloys
WR Wang, WL Wang, SC Wang, YC Tsai, CH Lai… - Intermetallics, 2012 - Elsevier
A five-component AlxCoCrFeNi high-entropy alloy (HEA) system with finely-divided Al
contents (x in molar ratio, x= 0–2.0) was prepared by vacuum arc melting and casting …
contents (x in molar ratio, x= 0–2.0) was prepared by vacuum arc melting and casting …
[HTML][HTML] Unexpected spinodal decomposition in as-cast eutectic high entropy alloy Al30Co10Cr30Fe15Ni15
By integrating calculation of phase diagram (CALPHAD) simulations, ab initio molecular
dynamics (AIMD) and experimental validation, we shed light on the unexpected spinodal …
dynamics (AIMD) and experimental validation, we shed light on the unexpected spinodal …
Microstructural evolution of spinodally formed Fe35Ni15Mn25Al25
The microstructural evolution of a bcc-based, spinodally formed alloy Fe35Ni15Mn25Al25
has been studied as a function of annealing time at 550° C using atom probe tomography …
has been studied as a function of annealing time at 550° C using atom probe tomography …
The microstructure of near-equiatomic B2/fcc FeNiMnAl alloys
A microstructural analysis of two FeNiMnAl alloys, Fe30Ni20Mn30Al20 and
Fe25Ni25Mn30Al20, was performed by a combination of atom probe tomography and …
Fe25Ni25Mn30Al20, was performed by a combination of atom probe tomography and …
Dislocation identification and in situ straining in the spinodal Fe30Ni20Mn25Al25 alloy
Dislocations in the spinodal alloy Fe30Ni20Mn25Al25, which is composed of alternating
BCC and B2 (ordered BCC) phases, have been investigated using weak‐beam …
BCC and B2 (ordered BCC) phases, have been investigated using weak‐beam …
Microstructure and mechanical behavior of directionally solidified Fe35Ni15Mn25Al25
The effects of directional solidification (DS) processing on the microstructure and hardness
of Fe35Ni15Mn25Al25 are examined. The microstructure consists of (Fe, Mn)-enriched B2 …
of Fe35Ni15Mn25Al25 are examined. The microstructure consists of (Fe, Mn)-enriched B2 …
Microstructure and mechanical properties of two-phase Fe30Ni20Mn20Al30. Part I: Microstructure
Abstract The microstructure of Fe 30 Ni 20 Mn 20 Al 30 in both the as-cast condition and
after annealing at 823 K for various times up to 72 h was characterized using transmission …
after annealing at 823 K for various times up to 72 h was characterized using transmission …
Dry sliding wear of nanostructured Fe30Ni20Mn20Al30
The wear of both as-cast and annealed nanostructured Fe30Ni20Mn20Al30, which consists
of fine alternating B2 (ordered bcc) and L21 (further ordering B2) phases, was studied using …
of fine alternating B2 (ordered bcc) and L21 (further ordering B2) phases, was studied using …
A comparison of dry sliding wear of Fe30Ni20Mn25Al25 at room temperature and elevated temperature
Dry sliding pin-on-disk wear tests were conducted in air on the nanostructured alloy
Fe30Ni20Mn25Al25, which consists of alternating bcc and B2 phases with interfaces …
Fe30Ni20Mn25Al25, which consists of alternating bcc and B2 phases with interfaces …