Randomly packed Ni2MnIn and NiMn structural units in off stoichiometric Ni2Mn2-yIny alloys

Abstract

Ni2Mn2-yIny alloys transform from the martensitic L10 antiferromagnetic ground state near y = 0 to austenitic ferromagnetic L21 Heusler phase near y = 1 due to doping of In impurity for Mn. The off stoichiometric alloys prepared by rapid quenching are structurally metastable and dissociate into a mixture of L21 (Ni2MnIn) and L10 (NiMn) phases upon temper annealing. Despite this structural disintegration, the martensitic transformation temperature remains invariant in the temper annealed alloys. Investigations of the local structure of the constituent atoms reveal the presence of strongly coupled Ni2MnIn and NiMn structural units in the temper annealed as well as the rapidly quenched off stoichiometric Ni2Mn2-yIny alloys irrespective of their crystal structure. This random packing of the L21 and L10 structural units seems to be responsible for invariance of martensitic transition temperature in the temper annealed alloys as well as the absence of strain glass transition in rapidly quenched alloys.