Mechanocaloric effects in shape memory alloys

Mañosa, Lluı́s; Planes, Antoni

doi:10.1098/rsta.2015.0310

Cited by 36 publications

(26 citation statements)

References 78 publications

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“…The difference between ΔTS values in compression and decompression processes, for the highest pressure variations, is probably due to the fact that the decompression process is closer to the adiabatic condition than the compression process. [30] or SMAs [31][32][33]). It is worth noticing that ΔTS curves present some temperature dependence only at the highest pressures (273 and 390 MPa).…”

Section: Resultsmentioning

confidence: 99%

Giant room-temperature barocaloric effects in PDMS rubber at low pressures

Carvalho

Imamura

Usuda

et al. 2018

European Polymer Journal

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The barocaloric effect is still an incipient scientific topic, but it has been attracting an increasing attention in the last years due to the promising perspectives for its application in alternative cooling devices. Here, we present giant values of barocaloric entropy change and temperature change induced by low pressures in PDMS elastomer around room temperature.Adiabatic temperature changes of 12.0 K and 28.5 K were directly measured for pressure changes of 173 MPa and 390 MPa, respectively, associated with large normalized temperature changes (~70 K GPa -1 ). From adiabatic temperature change data, we obtained entropy change values larger than 140 J kg -1 K -1 . We found barocaloric effect values that exceed those previously reported for any promising barocaloric materials from direct measurements of temperature change around room temperature. Our results stimulate the study of the barocaloric effect in elastomeric polymers and broaden the pathway to use this effect in solid-state cooling technologies.2

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Section: Resultsmentioning

confidence: 99%

Giant room-temperature barocaloric effects in PDMS rubber at low pressures

Carvalho

Imamura

Usuda

et al. 2018

European Polymer Journal

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“…According to Clausius-Clape yron relation dT/dp = ΔV/ΔS, a volume/lattice-constant discontinuity will lead to pressure/stress-driven MT. 31 In SMAs, both barocaloric and elastocaloric effects can be obtained, 13,40 which are especially expected in our all-d-metal Heusler…”

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confidence: 87%

Magnetostructural martensitic transformations with large volume changes and magneto-strains in all-d-metal Heusler alloys

Wei

Liu

et al. 2016

Applied Physics Letters

105

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“…[1,2] The transformation is characterized by the appearance of strong lattice strains frequently joined with shuffles and/or shears of specific lattice planes resulting in macroscopic changes of the crystal shape and of the material microstructure. [1] Diverse and striking physical phenomena occur at the martensitic transformation ranging from enhancement of the material's mechanical strength, [1,2] shape memory effects, [3] magneto-and mechano-caloric effects [4,5] and even exotic new topological states. [6] The knowledge of martensite symmetry and how the distor-tions develop during the transformation are pivotal in understanding the functional physical properties characterizing such materials.…”

Section: Introductionmentioning

confidence: 99%

Neutron diffraction and symmetry analysis of the martensitic transformation in Co-doped Ni2MnGa

et al. 2020

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Martensitic transformations are strain driven displacive transitions governing the mechanical and physical properties in intermetallic materials. This is the case in Ni 2 MnGa, where the martensite transition is at the heart of the striking magnetic shape memory and magneto-caloric properties.Interestingly, the martensitic transformation is preceded by a pre-martensite phase, and the role of this precursor and its influence on the martensitic transition and properties is still a matter of debate. In this work, we report on the influence of Co doping (Ni 50−x Co x Mn 25 Ga 25 with x = 3 and 5) on the martensitic transformation path in stoichiometric Ni 2 MnGa by neutron diffraction.The use of the superspace formalism to describe the crystal structure of the modulated martensitic phases, joined with a group theoretical analysis allows unfolding the different distortions featuring the structural transitions. Finally, a general Landau thermodynamic potential of the martensitic transformation, based on the symmetry analysis is outlined. The combined use of phenomenological and crystallographic studies highlights the close relationship between the lattice distortions at the core of the Ni 2 MnGa physical properties and, more in general, on the properties of the martensitic transformations in the Ni-Mn based Heusler systems.

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Mechanocaloric effects in shape memory alloys

Cited by 36 publications

References 78 publications

Giant room-temperature barocaloric effects in PDMS rubber at low pressures

Giant room-temperature barocaloric effects in PDMS rubber at low pressures

Magnetostructural martensitic transformations with large volume changes and magneto-strains in all-d-metal Heusler alloys

Neutron diffraction and symmetry analysis of the martensitic transformation in Co-doped Ni2MnGa

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