FeAl multilayers by sputtering: heat treatment and the phase evolution

“…From the literature [21], the main intermetallic compound formed in Al-Fe system is Al 5 Fe 2 in the solid state reaction. In addition, there are several studies on the microstructural analysis of the interface layer when molten aluminum comes in contact with solid iron [22,23].…”

Microstructure and mechanical properties of Al–Fe in situ nanocomposite produced by friction stir processing

“…From the literature [21], the main intermetallic compound formed in Al-Fe system is Al 5 Fe 2 in the solid state reaction. In addition, there are several studies on the microstructural analysis of the interface layer when molten aluminum comes in contact with solid iron [22,23].…”

Microstructure and mechanical properties of Al–Fe in situ nanocomposite produced by friction stir processing

“…Other authors also suggest that this is the first phase that appears in aluminum diffusion coatings on iron-based alloys. [25,29,30] Therefore, the formation of this phase is more favored than the FeAl 3 phase, and theoretical calculations based on diffusion kinetics have shown that the growth kinetics of Fe 2 Al 5 are much faster than those of other intermetallic phases such as AlFe, AlFe 2 , and FeAl 3 . [25,31] Finally, at increased deposition time, the FeAl 3 phase is also formed.…”

CVD in a Fluidized Bed Reactor: A Method of Developing Coatings at Temperatures below 600 °C

“…Multilayers with bilayer periods in the range of 3-60 nm have been deposited by electron beam evaporation [2,3,4], RF sputter deposition [1,5], DC sputter deposition [6] and pulsed laser deposition [7]. Aside from the magnetic properties, the main focus has been on the degree of intermetallic compound formation at room temperature and following a post-deposition anneal.…”

Influence of ion assisted deposition on interface broadening in Fe/Al multilayers investigated by medium energy ion scattering