Abstract
Abstract
Elastocaloric effect (eCE) is a very promising candidate for using in non-vapor compression refrigeration, which is highly efficient and eco-friendly. However, designing elastocaloric alloys with a wide reversible working temperature window at low stress is still challenging. In this work, the transition behaviors, microstructural evolutions and the eCE of a series of Ni55−x
Co
x
Fe19Ga27 alloys were systematically studied. The Ni44Co11Fe19Ga27 strain glass (STG) alloy exhibits a plateau-shape eCE, which show an average temperature change (ΔT
Adia) of ∼2.3 K covering a wide reversible working temperature range (ΔT
rev) from 135 K to 200 K. The unique eCE behavior of STG stems from that the random distribution of local free energy of the martensite coupled with the small transition energy barriers, which leads to a wide transition-temperature range and decreased hysteresis. The Ni44Co11Fe19Ga27 STG alloy achieves a balance between the considerable ΔT
Adia and wide ΔT
rev, resulting in an optimal comprehensive elastocaloric performance and contributing to improving the efficiency of elastocaloric refrigeration.
Funder
Science and Technology Program of Yulin City
Space Science and Application Project of China Manned Space Engineering
National Natural Science Foundation of China
the Fundamental Research Funds for the Central Universities (China), the World-Class Universities (Disciplines), the Characteristic Development Guidance Funds for the Central Universities
Key research and development program of Shaanxi province
Key Scientific and Technological Innovation Team of Shaanxi Province
National Key Research and Development Program of China
Innovation Capability Support Program of Shaanxi