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Evolutions of superelasticity and elastocaloric effect of Ti50Ni48Fe2 and aged-hardened Ni-rich Ti49.2Ni49.3Fe1.5 shape memory alloys under cyclic compressive deformation
Journal
Journal of Alloys and Compounds
Journal Volume
893
Date Issued
2022
Author(s)
Abstract
The transformation and superelasticity characteristics of solution-treated Ti50Ni48Fe2 and aged-hardened Ti49.2Ni49.3Fe1.5 shape memory alloys during cyclic compressive deformation were investigated. The Ti50Ni48Fe2 alloy could not be precipitation hardened, while the Ti49.2Ni49.3Fe1.5 alloy, aged at 400 °C, was hardened by Ti3Ni4 precipitates. During the cyclic deformation, the B2?R?B19′ transformation peaks broadened and spread to a large temperature span. At the same time, the superelasticity behavior became linear, and the associated elastocaloric cooling capacity decreased to a stable value. Among these samples, Ti49.2Ni49.3Fe1.5 alloy aged at 400 °C for 150 h exhibited the largest recoverable strain in superelasticity and retained the largest cooling effect after 1000 deformation cycles. Furthermore, it showed elastocaloric cooling of ?4.1 °C to ?7.0 °C at operating temperatures of ?40–80 °C. Experimental results revealed that B19′ transformation was suppressed significantly by cyclic deformation, and thus the transformation occurred in a wide temperature range of ?160 to ?50 °C. Additionally, the linear superelasticity exhibited a low slope of the Clausius–Clapeyron relation of about 0.5 MPa/°C. These features allow the alloys to exhibit superelasticiy and the elastocaloric effect over a wider temperature range. ? 2021 Elsevier B.V.
Subjects
Elastocaloric
Martensitic transformation
Precipitation
Shape memory alloys
Superelasticity
Binary alloys
Cooling
Deformation
Elasticity
Hardening
Iron alloys
Precipitation (chemical)
Shape-memory alloy
Ternary alloys
Titanium alloys
A-stable
Compressive deformations
Cooling Capacity
Cooling effects
Cyclic deformations
Recoverable strain
Temperature span
Wide temperature ranges
Martensitic transformations
Type
journal article