Abstract
Steel matrix composites locally reinforced with different molar ratios of in situ TiC/TiB 2 particulates (2:1, 1:1 and 1:2, respectively) have been fabricated successfully utilizing the self-propagating high-temperature synthesis (SHS) reactions of Ni–Ti–B 4C and Ni–Ti–B 4C–C systems during casting. Differential thermal analysis (DTA) and X-ray diffraction (XRD) results reveal that the exothermic reactions of the Ni–Ti–B 4C and Ni–Ti–B 4C–C systems proceed in such a way that Ni initially reacts with B 4C and Ti to form Ni 2B and Ti 2Ni compounds, respectively, with heat evolution at 1037 °C; Subsequently, the external heat and the evolved heat from these exothermic reactions promote the reactions forming TiC and TiB 2 at 1133 °C. In the composites reinforced with 1:2 molar ratio of TiC/TiB 2, almost all TiB 2 grains have clubbed structures, while TiC grains exhibit near-spherical morphologies. Furthermore, TiB 2 grain sizes decrease, with the increase of TiC content. In particular, in the composites reinforced with 2:1 molar ratio of TiC/TiB 2, it is difficult to find the clubbed TiB 2 grains. Macro-pores and blowholes are absent in the local reinforcing region of the composites reinforced with 1:1 and 1:2 molar ratios of TiC/TiB 2, while a few macro-pores can be observed in the composite reinforced with 2:1 molar ratio of TiC/TiB 2. Moreover, the densities of the composites reinforced with 1:1 and 1:2 molar ratios of TiC/TiB 2 are higher than that of the composite reinforced with 2:1 molar ratio of TiC/TiB 2. The composite reinforced with 1:2 molar ratio of TiC/TiB 2 has the highest hardness and the best wear resistance.
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