Xiufeng Hong scite author profile

Energy-efficient and environment-friendly elastocaloric refrigeration, which is a promising replacement of the conventional vapor-compression refrigeration, requires extraordinary elastocaloric properties. Hitherto the largest elastocaloric effect is obtained in small-size films and wires of the prototype NiTi system. Here, we report a colossal elastocaloric effect, well exceeding that of NiTi alloys, in a class of bulk polycrystalline NiMn-based materials designed with the criterion of simultaneously having large volume change across phase transition and good mechanical properties. The reversible adiabatic temperature change reaches a strikingly high value of 31.5 K and the isothermal entropy change is as large as 45 J kg −1 K −1 . The achievement of such a colossal elastocaloric effect in bulk polycrystalline materials should push a significant step forward towards large-scale elastocaloric refrigeration applications. Moreover, our design strategy may inspire the discovery of giant caloric effects in a broad range of ferroelastic materials.

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Reduced graphene oxide deposited carbon fiber reinforced polymer composites for electromagnetic interference shielding

Chen

et al. 2016

Composites Part A: Applied Science and Manufacturing

155

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Changing phase equilibria: A method for microstructure optimization and properties improvement in preparing anisotropic Sm2Fe17N3 powders

Hong

Bao

et al. 2019

Journal of Alloys and Compounds

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Phase formation and magnetic hardening mechanism of TbCu7 type Sm-Fe-N powders

Hong

Ding

et al. 2018

Journal of Magnetism and Magnetic Materials

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Particle interaction during magnetization reversal process of anisotropic Sm2Fe17Nx powders

Hong

Bao

et al. 2018

Rare Met.

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Xiufeng Hong

Colossal Elastocaloric Effect in Ferroelastic Ni-Mn-Ti Alloys

Reduced graphene oxide deposited carbon fiber reinforced polymer composites for electromagnetic interference shielding

Changing phase equilibria: A method for microstructure optimization and properties improvement in preparing anisotropic Sm2Fe17N3 powders

Phase formation and magnetic hardening mechanism of TbCu7 type Sm-Fe-N powders

Particle interaction during magnetization reversal process of anisotropic Sm2Fe17Nx powders

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