Microstructure characterization, structure and magnetic properties of Ni–Mn–Sn shape memory alloys
In this study, three shape memory alloys, Mn 50 Ni 50-x Sn x (x= 5, 7.5, and 10), were
elaborated by melt spinning. The structure, microstructure, and magnetic properties of these …
elaborated by melt spinning. The structure, microstructure, and magnetic properties of these …
Mössbauer investigations of the FeCoNiPdx and CrxFeCoNiPd high entropy alloys
Two series of FeCoNiPd x and Cr x FeCoNiPd high entropy alloys were investigated using
SEM-EDX, XRD technique and Mössbauer spectroscopy. Increasing of Pd content in the …
SEM-EDX, XRD technique and Mössbauer spectroscopy. Increasing of Pd content in the …
Heterogeneous coherent interface thermodynamics and Wulff construction associated with the cubic-tetragonal-orthorhombic multi-step structural transition in Mn-Ni …
A variety of heterogeneous coherent interfaces is formed during the cubic (fcc)-tetragonal
(fct)-orthorhombic (fco) multi-step structural phase transition in Mn-Ni antiferromagnetic …
(fct)-orthorhombic (fco) multi-step structural phase transition in Mn-Ni antiferromagnetic …
A chemical-structural model for coherent martensite/parent interface in Mn-based antiferromagnetic shape memory alloys
The martensite/parent coherent interface of Mn-based shape memory alloys (SMAs) is a
significant part in the research of their martensitic transformation, reversible shape memory …
significant part in the research of their martensitic transformation, reversible shape memory …