Influence of Ni on stability of martensitic transformation in Zr50Cu50−xNix

Influence of Ni content on the stability of martensitic transformation and microstructure evolution was investigated in Zr50Cu50−xNix (x = 0, 5, 10, 15). Microstructural observations revealed that the both B19′ and Cm martensites were present in all the alloys investigated. The thermal behaviors results indicated that the initial Ms increased from 433 K to 699 K with an increase of Ni content from 5 to 15 mol.%. For x = 5, the forward and reverse martensitic transformation disappeared after thermal cycling. For x = 10 and 15, both transformation still remained even after 10 cycles. Two-step transformation behaviors were observed on both forward and reverse transformation in x = 15 alloy. Ni addition decreased the transformation hysteresis. Microstructural observations revealed the Ni addition up to 10 mol.% suppressed the decomposition of ZrCu into Zr2Cu and τ5 phases during 10 thermal cycling treatments. These results indicated that the addition of Ni over 10 mol.% stabilized the martensitic transformation during thermal cycling.

► Both B19′ and Cm martensite phases are present under TEM observations. ► Ni addition increases the Ms and As. ► Martensitic transformations are stabilized by Ni addition up to 10 mol.% ► Ni addition suppresses the decomposition of ZrCu into Zr0Cu and τ5.