Effect of alloying elements on martensitic transformation in the binary NiAl(beta) phase alloys

The characteristics of the B2(beta) to L1(0)(beta') martensitic transformation in NiAl base alloys containing a small amount of third elements have been investigated by differential scanning calorimetry (DSC), X-ray diffraction (XRD), and transmission electron microscopy (TEM). It is found that in addition to the normal L1(0) (3R) martensite, the 7R martensite is also present in the ternary alloys containing Ti, Mo, Ag, Ta, or Zr. While the addition of third elements X (X: Ti, V, Cr, Mn, Fe, Zr, Nb, Mo, Ta, W, and Si) to the binary Ni64Al36 alloy stabilizes the parent beta phase, thereby lowering the M(s) temperature, addition of third elements such as Co, Cu, or Ag destabilizes the beta phase, increasing the M(s) temperature. The occurrence of the 7R martensite structure is attributed to solid solution hardening arising from the difference in atomic size between Ni and Al and the third elements added. The variation in M(s) temperature with third element additions is primarily ascribed to the difference in lattice stabilities of the bcc and fee phases of the alloying elements.