Partial Phase Relationships in Ir-Nb-Ni-Al and Ir-Nb-Pt-Al Quaternary Systems and Mechanical Properties of Their Alloys

摘要

Two quaternary systems, Ir-Nb-Ni-Al and Ir-Nb-Pt-Al, were successively investigated to assess their possible use in ultra-high-temperature applications. The phase relationships concentrated on the fcc/L1_2 two-phase region were primarily established, and the mechanical properties were studied. Ir-Nb-Ni-Al quaternary alloys around the Ir-rich or Ni-rich corners of the Ir-Nb-Ni-Al tetrahedron showed a coherent fcc/L1_2 two-phase structure, analogous to that of Ni-base superalloys; however, most of the alloys presented three or four phases with two types of L12 phases. Although these alloys showed a high compressive strength at high temperature, they exhibited a higher creep rate than Ir-base binary and ternary alloys. Another quaternary system, Ir-Nb-Pt-Al, showed promising results. Only an fcc/L1_2 two-phase structure was found in all the alloys investigated with compositions ranging from the Ir-rich side to the Pt-rich side, and the lattice misfit between the fee and L1_2 phases was small. The high-temperature strength at 1200 deg C of Ir-Nb-Pt-Al alloys was higher than that of Ir-Nb-Ni-Al alloys with the same Ir content (at. pct). Moreover, Ir-Nb-Pt-Al alloys exhibited excellent creep resistance at 1400 deg C and 100 MPa.