Abstract:The formation mechanism of intermetallic compounds formed in boron steel hot-dipped in Al-7Ni (wt %) at 690 • C for 10-120 s was studied by identifying the intermetallic phases and investigating the growth process. Initially, a Fe 3 O 4 oxide layer formed on the steel. The oxide layer separated into multiple layers sporadically; following this, the Al-Ni molten alloy permeated into the region of the oxide layer breakdown and formed the Al 9 FeNi (T, monoclinic, space group: P21/c) phase on the steel surfaces. The Al 9 FeNi (T) phase formed from the reaction between the Al-Ni molten alloy and Fe eluted from the steel; this phase not only acts as an Al interdiffusion channel, but also as a barrier for Fe; and facilitates only grain growth without a significant change in thickness. Inside the steel, the Fe 2 Al 5 (η, orthorhombic, space group: Cmcm) phase grows along the c-axis in the [001] direction; and has a long columnar structure. The Fe 3 AlC (κ, Cubic, space group: Pm3m) phase is formed owing to a reduction in the Al concentration and the simultaneous diffusion and discharge of C toward the steel interface, as C cannot dissolve in the Fe 2 Al 5 (η) phase.