Shape memory alloys exploit the latent heat yielded by stress-induced martensitic
transformation to achieve elastocaloric effect, being suited for solid-state cooling technology …

Solid-state refrigeration based on the caloric effects has been conceived to be a high-
efficient and environmental-friendly alternative to replace the vapor-compression …

An overview of the processing, characterization and magnetostructural properties of
ferromagnetic NiMnX (X= group IIIA–VA elements) Heusler alloys is presented. This type of …

The martensitic transformation arrest phenomenon in Ni 45 Co 5 Mn 36.6 In 13.4 meta-
magnetic shape memory alloy (MMSMA) single crystals was investigated as a function of …

In this letter, we investigate the elastocaloric reversibility in Ni-Mn-In-Co meta-magnetic
shape memory alloys. A highly [001] textured Ni 45 Mn 36.5 In 13.5 Co 5 polycrystalline …

Solid-state elastocaloric cooling based on elastocaloric effect resulting from superelastic
martensitic transformation has been conceived as a very competitive alternative to the …

Magnetic field-induced, reversible martensitic transformations in NiCoMnIn meta-magnetic
shape memory alloys were studied under constant and varying mechanical loads to …

We demonstrate the temperature dependent elastocaloric effect in a Ni 44.9 Co 4.9 Mn 36.9
In 13.3 polycrystalline alloy with a strong⟨ 001⟩ A preferred orientation. It is found that the …

In the present work, the effects of composition and heat treatments and the resulting
microstructural changes on the martensitic transformation and ferromagnetic transition have …

Mechanical properties and elastocaloric effect are the most important parameters of Ni-Mn-
In shape memory alloys in the refrigeration field. This paper mainly studies the influence of …