Strengthening and toughening effects in laves phase Cr2Ta/Cr in-situ composites by Si additions

Three Cr-8Ta-xSi (x = 0, 6, 10) (at.%) alloys were fabricated by vacuum non-consumable arc melting in this study to investigate the microstructure evolutions and mechanical properties of the Si-modified Cr2Ta/Cr in-situ composites. The element Si was incorporated preferentially into Cr2Ta rather than phase Cr, thus the microstructure transited from the dendrite Cr plus the eutectic Cr2Ta/Cr in the Cr-8Ta alloy, to the full eutectic Cr2Ta/Cr in the Cr-8Ta-6Si alloy, and finally to the dendrite Cr2Ta plus the eutectic Cr2Ta/Cr in the Cr-8Ta-10Si alloy. The Cr-8Ta-6Si alloy was developed with a good combination of strength and toughness, and the yield strength and fracture toughness of this alloy reached up to 960 +/- 20 MPa and 15 +/- 0.3 MPa m(1/2), respectively. The good combination of strength and toughness in the Cr-8Ta-6Si alloy resulted from the synergistic effects of solid solution strengthening, alloying toughening, interface strengthening and second phase toughening.