Your search keyword '"Gràcia-Condal, Adrià"' showing total 20 results

1. Influence of microstructure on the application of Ni-Mn-In Heusler compounds for multicaloric cooling using magnetic field and uniaxial stress

Author

Pfeuffer, Lukas, Gràcia-Condal, Adrià, Gottschall, Tino, Koch, David, Faske, Tom, Bruder, Enrico, Lemke, Jonas, Taubel, Andreas, Ener, Semih, Scheibel, Franziska, Durst, Karsten, Skokov, Konstantin P., Mañosa, Lluís, Planes, Antoni, and Gutfleisch, Oliver

Subjects

Condensed Matter - Materials Science

Abstract

Novel multicaloric cooling utilizing the giant caloric response of Ni-Mn-based metamagnetic shape-memory alloys to different external stimuli such as magnetic field, uniaxial stress and hydrostatic pressure is a promising candidate for energy-efficient and environmentally-friendly refrigeration. However, the role of microstructure when several external fields are applied simultaneously or sequentially has been scarcely discussed in literature. Here, we synthesized ternary Ni-Mn-In alloys by suction casting and arc melting and analyzed the microstructural influence on the response to magnetic fields and uniaxial stress. By combining SEM-EBSD and stress-strain data, a significant effect of texture on the stress-induced martensitic transformation is revealed. It is shown that a <001> texture can strongly reduce the critical transformation stresses. The effect of grain size on the material failure is demonstrated and its influence on the magnetic-field-induced transformation dynamics is investigated. Temperature-stress and temperature-magnetic field phase diagrams are established and single caloric performances are characterized in terms of ${\Delta}{s_T}$ and ${\Delta}{T_{ad}}$. The cyclic ${\Delta}{T_{ad}}$ values are compared to the ones achieved in the multicaloric exploiting-hysteresis cycle. It turns out that a suction-cast microstructure and the combination of both stimuli enables outstanding caloric effects in moderate external fields which can significantly exceed the single caloric performances. In particular for Ni-Mn-In, the maximum cyclic effect in magnetic fields of 1.9 T is increased by more than 200 % to -4.1 K when a moderate sequential stress of 55 MPa is applied. Our results illustrate the crucial role of microstructure for multicaloric cooling using Ni-Mn-based metamagnetic shape-memory alloys.

Published

2021

2. Multicaloric effects in Metamagnetic Heusler Ni-Mn-In under uniaxial stress and magnetic field

Author

Gràcia-Condal, Adrià, Gottschall, Tino, Pfeuffer, Lukas, Gutfleisch, Oliver, Planes, Antoni, and Mañosa, Lluís

Subjects

Condensed Matter - Materials Science

Abstract

The world's growing hunger for artificial cold on the one hand, and the ever more stringent climate targets on the other, pose an enormous challenge to mankind. Novel, efficient and environmentally friendly refrigeration technologies based on solid-state refrigerants can offer a way out of the problems arising from climate-damaging substances used in conventional vapor-compressors. Multicaloric materials stand out because of their large temperature changes which can be induced by the application of different external stimuli such as a magnetic, electric, or a mechanical field. Despite the high potential for applications and the interesting physics of this group of materials, only few studies focus on their investigation by direct methods. In this paper, we report on the advanced characterization of all relevant physical quantities that determine the multicaloric effect of a Ni-Mn-In Heusler compound. We have used a purpose-designed calorimeter to determine the isothermal entropy and adiabatic temperature changes resulting from the combined action of magnetic field and uniaxial stress on this metamagnetic shape-memory alloy. From these results, we can conclude that the multicaloric response of this alloy by appropriate changes of uniaxial stress and magnetic field largely outperforms the caloric response of the alloy when subjected to only a single stimulus. We anticipate that our findings can be applied to other multicaloric materials, thus inspiring the development of refrigeration devices based on the multicaloric effect., Comment: To be published in Applied Physic Reviews

Published

2020

3. Outstanding caloric performances for energy-efficient multicaloric cooling in a Ni-Mn-based multifunctional alloy

Author

Qu, Yuhai, Gràcia-Condal, Adrià, Mañosa, Lluís, Planes, Antoni, Cong, Daoyong, Nie, Zhihua, Ren, Yang, and Wang, Yandong

Published

2019

4. A multicaloric cooling cycle that exploits thermal hysteresis

Author

Gottschall, Tino, Gràcia-Condal, Adrià, Fries, Maximilian, Taubel, Andreas, Pfeuffer, Lukas, Mañosa, Lluís, Planes, Antoni, Skokov, Konstantin P., and Gutfleisch, Oliver

Published

2018

5. Cross-coupling contribution to the isothermal entropy change in multicaloric materials

Author

Mañosa, Lluís, primary, Stern-Taulats, Enric, additional, Gràcia-Condal, Adrià, additional, and Planes, Antoni, additional

Published

2023

6. Magnetic and structural entropy contributions to the multicaloric effects in Ni-Mn-Ga-Cu

Author

Gràcia-Condal, Adrià, primary, Planes, Antoni, additional, Mañosa, Lluís, additional, Wei, Zhiyang, additional, Guo, Jianping, additional, Soto-Parra, Daniel, additional, and Liu, Jian, additional

Published

2022

7. Giant caloric and multicaloric effects in magnetic alloys

Author

Gràcia Condal, Adrià, Mañosa, Lluís, Universitat de Barcelona. Departament de Física de la Matèria Condensada, and Franzese, Giancarlo

Subjects

Refrigerantes, Magnetisme, Solid state physics, Refrigerants, Aliatges, Física del estado sólido, Magnetism, Alloys, Física de l'estat sòlid, Magnetismo, Aleaciones, 538.9, Ciències Experimentals i Matemàtiques

Abstract

[eng] The urgent need to reduce our footprint on the earth environment is leading to ever more stringent commitments to decrease greenhouse gases emissions, which entails one of the greatest challenges that mankind has to tackle. As a direct consequence, it is of utmost importance to develop novel, energy-efficient and environmentally-friendly refrigeration technologies that do not require the use of climate-damaging substances. In this regard, solid-state refrigerants based on the large thermal response exhibited by a variety of materials when field-inducing a ferroic phase transition are among the best alternatives. Specifically, materials undergoing a first-order phase transition are of particular interest as the latent heat associated with the phase transition contributes on enhancing the magnitude of the thermal response. Depending on the nature of the external field that drives the phase transition one distinguishes between magnetocaloric, electrocaloric, elastocaloric or barocaloric effects. In spite of all the intensive research devoted to the study of the diverse caloric effects, there are still a series of bottlenecks to overcome. Firstly, they require the application of strong external fields in order to induce a large thermal response. Secondly, the hysteresis associated with the phase transition can drastically reduce the efficiency and compromises its reversibility. A way out of such issues can be provided by materials exhibiting a strong coupling between the structural, magnetic or electronic degrees of freedom, denoted as multicaloric materials, which allow to drive their phase transition by the combination of diverse external fields, giving rise to multicaloric effects. Despite the high potential they exhibit, the research on multicaloric materials is germinal as it requires the use of non-commercial experimental systems. In this dissertation, we have focused on the study of materials displaying a magnetostructural first- order phase transition with a strong coupling between the structural and magnetic degrees of freedom. For such purpose, we have used distinct purpose-built calorimetric and adiabatic thermometry systems to investigate their caloric and multicaloric effects by direct methods. We have concentrated on two distinct families of multicaloric materials: Fe-Rh and Ni-Mn-based Heusler alloys. Our research is aimed at thoroughly characterizing the diverse advantages of multicaloric effects: showing that lower driving fields are required, that the operating temperature windows of the materials can be enlarged and discussing how their inherent hysteresis can be mastered or even exploited., [cat] La necessitat urgent de reduir la nostra empremta en el clima s’està materialitzant en compromisos globals per disminuir l’emissió de gasos d’efecte hivernacle que cada cop son més estrictes, representat avui en dia un dels majors reptes que la humanitat ha d’afrontar. Com a conseqüència directa, és de la màxima importància desenvolupar noves tecnologies de refrigeració que siguin eficients i respectuoses amb el medi ambient. En aquest sentit, entre les millors alternatives es troben els refrigerants en estat sòlid basats en materials que presenten una resposta tèrmica gran quan s’indueix una transició de fase ferroica mitjançant un camp extern. En concret, són d’especial interès els materials que presenten una transició de fase de primer ordre, ja que la calor latent associada a la transició de fase incrementa la magnitud de la resposta tèrmica. Depenent de la naturalesa del camp extern que s’utilitza per induir la transició de fase, es distingeix entre els efectes magnetocalòric, electrocalòric, elastocalòric o barocalòric. Malgrat els grans esforços dedicats en l’estudi dels diversos efectes calòrics, hi ha una sèrie d’obstacles que cal superar. En primer lloc, es necessiten camps intensos per induir una resposta tèrmica gran. En segon lloc, la histèresi associada a la transició de fase pot reduir dràsticament la seva eficiència i comprometre la reversibilitat de l’efecte calòric. Una possible sortida a aquests problemes pot venir donada pels materials que presenten un fort acoblament entre els graus de llibertat estructural, magnètic o electrònic, anomenats materials multicalòrics, ja que permeten que la seva transició de fase s’indueixi mitjançant la combinació de diversos camps externs, donant lloc als anomenats efectes multicalòrics. Malgrat l’alt potencial que presenten a l’hora d’abordar algunes de les mancances que s’han posat de manifest ens els diversos efectes calòrics, l’interès en la seva recerca és molt recent ja que requereix l’ús de sistemes experimentals no comercials. En aquesta tesi, ens hem centrat en l’estudi de materials que presenten transicions magnetoestructurals de primer ordre amb un fort acoblament entre els graus de llibertat magnètic i estructural. Amb aquest propòsit, hem utilitzat diversos dispositius experimentals dissenyats ad hoc que permeten realitzar mesures calorimètriques o termomètriques sota la influència de camp magnètic i esforç uniaxial per tal de caracteritzar-ne els efecte calòrics i multicalòrics mitjançant mètodes directes. Ens hem centrat en dues famílies de materials multicalòrics: Fe-Rh i aliatges tipus Heusler de base Ni-Mn. La recerca duta a terme s’ha centrat en caracteritzar a fons els diversos avantatges que presenten els efectes multicalòrics: demostrant que requereixen camps de menor intensitat per induir una resposta tèrmica gran, que permeten ampliar el rang de temperatura de treball dels materials o que proporcionen estratègies per controlar o fins i tot aprofitar la histèresi associada a la transició de fase.

Published

2022

8. Influence of microstructure on the application of Ni-Mn-In Heusler compounds for multicaloric cooling using magnetic field and uniaxial stress

Author

Pfeuffer, Lukas, primary, Gràcia-Condal, Adrià, additional, Gottschall, Tino, additional, Koch, David, additional, Faske, Tom, additional, Bruder, Enrico, additional, Lemke, Jonas, additional, Taubel, Andreas, additional, Ener, Semih, additional, Scheibel, Franziska, additional, Durst, Karsten, additional, Skokov, Konstantin P., additional, Mañosa, Lluís, additional, Planes, Antoni, additional, and Gutfleisch, Oliver, additional

Published

2021

9. Giant and Reversible Barocaloric Effect in Trinuclear Spin‐Crossover Complex Fe3(bntrz)6(tcnset)6

Author

Romanini, Michela, primary, Wang, YiXu, additional, Gürpinar, Kübra, additional, Ornelas, Gladys, additional, Lloveras, Pol, additional, Zhang, Yan, additional, Zheng, Wenkai, additional, Barrio, Maria, additional, Aznar, Araceli, additional, Gràcia‐Condal, Adrià, additional, Emre, Baris, additional, Atakol, Orhan, additional, Popescu, Catalin, additional, Zhang, Hu, additional, Long, Yi, additional, Balicas, Luis, additional, Lluís Tamarit, Josep, additional, Planes, Antoni, additional, Shatruk, Michael, additional, and Mañosa, Lluís, additional

Published

2021

10. Multicaloric effects in metamagnetic Heusler Ni-Mn-In under uniaxial stress and magnetic field

Author

Gràcia-Condal, Adrià, primary, Gottschall, Tino, additional, Pfeuffer, Lukas, additional, Gutfleisch, Oliver, additional, Planes, Antoni, additional, and Mañosa, Lluís, additional

Published

2020

11. Caloric response of Fe49Rh51 subjected to uniaxial load and magnetic field

Author

Gràcia Condal, Adrià, Stern Taulats, Enric, Planes Vila, Antoni, and Mañosa, Lluís

Subjects

Propietats magnètiques, Magnetic properties, Condensed matter, Ciència dels materials, Matèria condensada, Materials science

Abstract

We have used differential scanning calorimetry and thermometry techniques under applied magnetic field and compressive uniaxial stress to determine isothermal entropy and adiabatic temperature changes that quantify the caloric effects associated with the magnetostructural transition of an Fe49Rh51 alloy. It is found that the transition temperature increases with increasing compressive stress while it decreases for increasing tensile stress. This behavior gives rise to a conventional elastocaloric effect for compressive stresses in contrast to the reported inverse elastocaloric effect for tensile stresses. The combined effect of stress and magnetic field does not lead to a significant increase of the maximum temperature and entropy changes associated with magnetocaloric and elastocaloric effects, but there is a modification of the temperature window where the sample exhibits giant caloric responses.

Published

2018

12. Giant barocaloric effect in all- d -metal Heusler shape memory alloys

Author

Aznar, Araceli, primary, Gràcia-Condal, Adrià, additional, Planes, Antoni, additional, Lloveras, Pol, additional, Barrio, Maria, additional, Tamarit, Josep-Lluís, additional, Xiong, Wenxin, additional, Cong, Daoyong, additional, Popescu, Catalin, additional, and Mañosa, Lluís, additional

Published

2019

13. Giant and Reversible Barocaloric Effect in Trinuclear Spin‐Crossover Complex Fe3(bntrz)6(tcnset)6.

Author

Romanini, Michela, Wang, YiXu, Gürpinar, Kübra, Ornelas, Gladys, Lloveras, Pol, Zhang, Yan, Zheng, Wenkai, Barrio, Maria, Aznar, Araceli, Gràcia‐Condal, Adrià, Emre, Baris, Atakol, Orhan, Popescu, Catalin, Zhang, Hu, Long, Yi, Balicas, Luis, Lluís Tamarit, Josep, Planes, Antoni, Shatruk, Michael, and Mañosa, Lluís

Published

2021

14. Caloric response of Fe49Rh51 subjected to uniaxial load and magnetic field

Author

Gràcia-Condal, Adrià, primary, Stern-Taulats, Enric, additional, Planes, Antoni, additional, and Mañosa, Lluís, additional

Published

2018

15. The Giant Elastocaloric Effect in a Cu–Zn–Al Shape‐Memory Alloy: a Calorimetric Study

Author

Gràcia‐Condal, Adrià, primary, Stern‐Taulats, Enric, additional, Planes, Antoni, additional, Vives, Eduard, additional, and Mañosa, Lluís, additional

Published

2017

16. Direct measurement of the adiabatic temperature change and study of the reversibility in the magnetocaloric e ect of Fe0.49Rh0.51

Author

Gràcia Condal, Adrià and Mañosa, Lluís

Subjects

Bachelor's thesis, Propietats magnètiques, Bachelor's theses, Magnetic properties, Termodinàmica, Thermodynamics, Treballs de fi de grau

Abstract

Treballs Finals de Grau de Física, Facultat de Física, Universitat de Barcelona, Any: 2014, Tutor: Lluís Mañosa

Published

2014

17. The Giant Elastocaloric Effect in a Cu–Zn–Al Shape‐Memory Alloy: a Calorimetric Study.

Author

Gràcia‐Condal, Adrià, Stern‐Taulats, Enric, Planes, Antoni, Vives, Eduard, and Mañosa, Lluís

Subjects

*COPPER-zinc alloys, *SHAPE memory alloys, *CALORIMETRY, *DILATOMETRY, *MAGNETOCALORIC effects

Abstract

We study the giant elastocaloric effect in a Cu–Zn–Al shape‐memory alloy by means of simultaneous calorimetry and dilatometry measurements under applied uniaxial compression which have been carried out with a bespoke experimental setup. The output data allow a unique quasidirect and indirect characterization of the thermal response that provides accurate ΔS and ΔT values. We report a large thermal response of |ΔS| = 22 J K kg−1, |ΔT| = 12.3 K, and RC = 325 K kg−1 driven by moderate uniaxial compression changes of 32.2 MPa, which is comparable with the performance of the best magnetocaloric materials. In view of the hysteresis effects, the thermal response is predicted to exhibit reversible values for |Δσ| = 32 MPa. [ABSTRACT FROM AUTHOR]

Published

2018

18. Reversible adiabatic temperature changes at the magnetocaloric and barocaloric effects in Fe49Rh51

Author

Stern-Taulats, Enric, primary, Gràcia-Condal, Adrià, additional, Planes, Antoni, additional, Lloveras, Pol, additional, Barrio, Maria, additional, Tamarit, Josep-Lluís, additional, Pramanick, Sabyasachi, additional, Majumdar, Subham, additional, and Mañosa, Lluís, additional

Published

2015

19. Reversible adiabatic temperature changes at the magnetocaloric and barocaloric effects in Fe49Rh51.

Author

Stern-Taulats, Enric, Gràcia-Condal, Adrià, Planes, Antoni, Lloveras, Pol, Barrio, Maria, Tamarit, Josep-Lluís, Pramanick, Sabyasachi, Majumdar, Subham, and Mañosa, Lluís

Subjects

*ADIABATIC temperature, *MAGNETOCALORIC effects, *ENTROPY, *THERMOMETRY, *HYDROSTATIC pressure

Abstract

We report on the adiabatic temperature changes (ΔT) associated with the magnetocaloric and barocaloric effects in a Fe49Rh51 alloy. For the magnetocaloric effect, data derived from entropy curves are compared to direct thermometry measurements. The agreement between the two sets of data provides support to the estimation of ΔT for the barocaloric effect, which are indirectly determined from entropy curves. Large ΔT values are obtained at relatively low values of magnetic field (2 T) and hydrostatic pressure (2.5 kbar). It is also shown that both magnetocaloric and barocaloric effects exhibit good reproducibility upon magnetic field and hydrostatic pressure cycling, over a considerable temperature range. [ABSTRACT FROM AUTHOR]

Published

2015

20. Reversible adiabatic temperature changes at the magnetocaloric and barocaloric effects in Fe49Rh51.

Author

Stern-Taulats, Enric, Gràcia-Condal, Adrià, Planes, Antoni, Lloveras, Pol, Barrio, Maria, Tamarit, Josep-Lluís, Pramanick, Sabyasachi, Majumdar, Subham, and Mañosa, Lluís

Subjects

ADIABATIC temperature, MAGNETOCALORIC effects, ENTROPY, THERMOMETRY, HYDROSTATIC pressure

Abstract

We report on the adiabatic temperature changes (ΔT) associated with the magnetocaloric and barocaloric effects in a Fe49Rh51 alloy. For the magnetocaloric effect, data derived from entropy curves are compared to direct thermometry measurements. The agreement between the two sets of data provides support to the estimation of ΔT for the barocaloric effect, which are indirectly determined from entropy curves. Large ΔT values are obtained at relatively low values of magnetic field (2 T) and hydrostatic pressure (2.5 kbar). It is also shown that both magnetocaloric and barocaloric effects exhibit good reproducibility upon magnetic field and hydrostatic pressure cycling, over a considerable temperature range. [ABSTRACT FROM AUTHOR]

Published

2015