Abstract
ZrC ceramic was diffusion bonded with pure Ni as the interlayer to investigate its interaction mechanism. Results show that the Ni–ZrC interfacial reaction includes two characteristic stages: the solid phase diffusion and Ni–ZrC eutectic reaction. An atomic interdiffusion was observed during the solid phase diffusion stage and corresponding product was proven to be Ni-based solid solution, which transformed into Ni–Zr–C ternary eutectic around 1200°C. Hereafter, the interfacial reaction transformed into a liquid phase reaction, which was in fact a dissolution process of ZrC into the liquid. The formed Ni–Zr–C ternary eutectic liquid permeated into the porous ZrC ceramic, leading to the formation of a thick transition layer. During the cooling period, graphite crystallized first from the liquid due to the dissolution change of C element. Decreasing in temperature, ZrC particles recrystallized from the liquid and the residual liquid solidified into Ni-based solid solution.
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