Abstract

Microstructure evolution of the Ni-11.5 wt%Si eutectic alloy during the melting and cooling process was elaborately examined using a high-temperature confocal laser scanning microscope (HT-CLSM). The thermal stability of the phase composition within the Ni-11.5 wt%Si eutectic alloy was thoroughly analyzed. The intricate mechanism governing the solidification of the Ni-11.5 wt%Si eutectic alloy, along with the formation of the metastable Ni31Si12 phase under varying cooling rates, was systematically investigated. Through in-depth in-situ observations, a well-defined heat treatment procedure was developed for Ni-Ni3Si eutectic composites. Remarkably, the metastable Ni31Si12 phase can completely transform into Ni3Si upon undergoing the prescribed heat treatment, yielding a refined lamellar structure. This structural refinement notably results in substantial enhancements in the compressive properties and fracture toughness of the Ni-Ni3Si eutectic composite at ambient temperatures.

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