Wide-temperature-range perfect superelasticity and giant elastocaloric effect in a high entropy alloy

Wide-temperature-range perfect superelasticity and giant elastocaloric effect in a high entropy alloy

The high entropy alloy concept offers unique opportunities for the design of advanced materials with unprecedented properties. However, hitherto most of the research efforts are focused on structural materials. Here, by employing the core effect of severe lattice distortion in high entropy alloys, a...

Full description

Bibliographic Details
Main Authors: Shaohui Li, Daoyong Cong, Xiaoming Sun, Yong Zhang, Zhen Chen, Zhihua Nie, Runguang Li, Fuqiang Li, Yang Ren, Yandong Wang
Format: Article
Language:English
Published: Taylor & Francis Group 2019-12-01
Series:Materials Research Letters
Subjects:
High entropy alloys
superelasticity
phase transformation
high-energy X-ray diffraction
lattice distortion
Online Access:http://dx.doi.org/10.1080/21663831.2019.1659436
id doaj-86edf79f1b784839b7a1b23963944d15
record_format Article
spelling doaj-86edf79f1b784839b7a1b23963944d152020-11-24T21:02:14ZengTaylor & Francis GroupMaterials Research Letters2166-38312019-12-0171248248910.1080/21663831.2019.16594361659436Wide-temperature-range perfect superelasticity and giant elastocaloric effect in a high entropy alloyShaohui Li0Daoyong Cong1Xiaoming Sun2Yong Zhang3Zhen Chen4Zhihua Nie5Runguang Li6Fuqiang Li7Yang Ren8Yandong Wang9University of Science and Technology BeijingUniversity of Science and Technology BeijingUniversity of Science and Technology BeijingUniversity of Science and Technology BeijingUniversity of Science and Technology BeijingBeijing Institute of TechnologyUniversity of Science and Technology BeijingUniversity of Science and Technology BeijingArgonne National LaboratoryUniversity of Science and Technology BeijingThe high entropy alloy concept offers unique opportunities for the design of advanced materials with unprecedented properties. However, hitherto most of the research efforts are focused on structural materials. Here, by employing the core effect of severe lattice distortion in high entropy alloys, a novel functional NiCuTiHf0.6Zr0.4 high entropy alloy exhibiting intriguing wide-temperature-range perfect superelasticity in a broad temperature range from 263 to 463 K and giant elastocaloric effect with the maximum adiabatic temperature change of 9.3 K is developed. This work opens the door for designing high-performance superelastic and elastocaloric functional materials with the high entropy alloy concept.http://dx.doi.org/10.1080/21663831.2019.1659436High entropy alloyssuperelasticityphase transformationhigh-energy X-ray diffractionlattice distortion
collection DOAJ
language English
format Article
sources DOAJ
author Shaohui Li
Daoyong Cong
Xiaoming Sun
Yong Zhang
Zhen Chen
Zhihua Nie
Runguang Li
Fuqiang Li
Yang Ren
Yandong Wang
spellingShingle Shaohui Li
Daoyong Cong
Xiaoming Sun
Yong Zhang
Zhen Chen
Zhihua Nie
Runguang Li
Fuqiang Li
Yang Ren
Yandong Wang
Wide-temperature-range perfect superelasticity and giant elastocaloric effect in a high entropy alloy
Materials Research Letters
High entropy alloys
superelasticity
phase transformation
high-energy X-ray diffraction
lattice distortion
author_facet Shaohui Li
Daoyong Cong
Xiaoming Sun
Yong Zhang
Zhen Chen
Zhihua Nie
Runguang Li
Fuqiang Li
Yang Ren
Yandong Wang
author_sort Shaohui Li
title Wide-temperature-range perfect superelasticity and giant elastocaloric effect in a high entropy alloy
title_short Wide-temperature-range perfect superelasticity and giant elastocaloric effect in a high entropy alloy
title_full Wide-temperature-range perfect superelasticity and giant elastocaloric effect in a high entropy alloy
title_fullStr Wide-temperature-range perfect superelasticity and giant elastocaloric effect in a high entropy alloy
title_full_unstemmed Wide-temperature-range perfect superelasticity and giant elastocaloric effect in a high entropy alloy
title_sort wide-temperature-range perfect superelasticity and giant elastocaloric effect in a high entropy alloy
publisher Taylor & Francis Group
series Materials Research Letters
issn 2166-3831
publishDate 2019-12-01
description The high entropy alloy concept offers unique opportunities for the design of advanced materials with unprecedented properties. However, hitherto most of the research efforts are focused on structural materials. Here, by employing the core effect of severe lattice distortion in high entropy alloys, a novel functional NiCuTiHf0.6Zr0.4 high entropy alloy exhibiting intriguing wide-temperature-range perfect superelasticity in a broad temperature range from 263 to 463 K and giant elastocaloric effect with the maximum adiabatic temperature change of 9.3 K is developed. This work opens the door for designing high-performance superelastic and elastocaloric functional materials with the high entropy alloy concept.
topic High entropy alloys
superelasticity
phase transformation
high-energy X-ray diffraction
lattice distortion
url http://dx.doi.org/10.1080/21663831.2019.1659436
work_keys_str_mv AT shaohuili widetemperaturerangeperfectsuperelasticityandgiantelastocaloriceffectinahighentropyalloy
AT daoyongcong widetemperaturerangeperfectsuperelasticityandgiantelastocaloriceffectinahighentropyalloy
AT xiaomingsun widetemperaturerangeperfectsuperelasticityandgiantelastocaloriceffectinahighentropyalloy
AT yongzhang widetemperaturerangeperfectsuperelasticityandgiantelastocaloriceffectinahighentropyalloy
AT zhenchen widetemperaturerangeperfectsuperelasticityandgiantelastocaloriceffectinahighentropyalloy
AT zhihuanie widetemperaturerangeperfectsuperelasticityandgiantelastocaloriceffectinahighentropyalloy
AT runguangli widetemperaturerangeperfectsuperelasticityandgiantelastocaloriceffectinahighentropyalloy
AT fuqiangli widetemperaturerangeperfectsuperelasticityandgiantelastocaloriceffectinahighentropyalloy
AT yangren widetemperaturerangeperfectsuperelasticityandgiantelastocaloriceffectinahighentropyalloy
AT yandongwang widetemperaturerangeperfectsuperelasticityandgiantelastocaloriceffectinahighentropyalloy
_version_ 1716776077621198848

Similar Items