Advanced characterization of multicaloric materials in pulsed magnetic fields

Gottschall, Tino; Bykov, Eduard; Gràcia-Condal, Adrià; Beckmann, Benedikt; Taubel, Andreas; Pfeuffer, Lukas; Gutfleisch, Oliver; Mañosa, Lluı́s; Planes, Antoni; Skourski, Y.; Wosnitza, J.

doi:10.1063/5.0006079

Cited by 32 publications

(23 citation statements)

References 41 publications

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“…The response to multiple stimuli requires a strong coupling of the ferroic order parameters. While a magnetoelectric coupling is rare and often not very pronounced, the opposite is the case for magnetoelastic materials such as La-Fe-Si [11], Fe-Rh [12], Gd-Si-Ge [13] and metamagnetic shapememory alloys, in particular Ni-Mn-based Heusler compounds [14][15][16]. Especially the martensitic transformation in the latter exhibits a high sensitivity to both, magnetic and mechanical (uniaxial load and hydrostatic pressure) fields.…”

Section: Introductionmentioning

confidence: 99%

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

et al. 2021

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Section: Introductionmentioning

confidence: 99%

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

et al. 2021

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“…− развитие и совершенствование экспериментальных методик одновременного приложения постоянных и циклических внешних полей (магнитного, электрического и механического) в " природных" мультикалориках. В части разработки и совершенствования экспериментальных методик по изучению мультикалорических работ были предложены различные решения по измерению МКЭ под действием изотропного или одноосного сжатия [40,60,61].…”

Section: прикладные аспекты мультикалорических материаловunclassified

Мультикалорики --- Новые Материалы Энергетики И Стрейнтроники -=sup=-*-=/Sup=- (О Б З О Р)

Амиров¹,

Тишин²,

Пахомов³

2022

Физика Твердого Тела

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The terms "multicaloric effect" and "multicaloric" are relatively new concepts and combine the phenomena and materials associated with the coexistence of conventional caloric effects under the action of external forces of various nature (magnetic field, electric field, mechanical action). Nowadays, caloric materials remain in the focus of attention of researchers, and approaches based on the use of the multicaloric effect are considered as one of the ways to improve the efficiency of conventional solid-state cooling systems. Of particular interest from a fundamental point of view are the cross effects observed under the combined external stimulus, as well as the nature of the relationship between magnetic, electrical, thermophysical properties and structure under such actions. In this review, the theoretical foundations of the multicaloric effect are considered and an attempt is made to systematize multicaloric materials. Applied aspects of multicalorics are considered separately, and various experimental approaches to the study of their properties are presented. The presented review will be of interest to a wide range of specialists involved in the study of materials with caloric effects (magnetocaloric, electrocaloric, mechanocaloric), as well as those who are searching for new functional materials.

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“…2019年, 中国科学院金属研究所李昺等人 [67] 报道了以新戊二醇为代表的塑晶中的庞压热效应, 利用高压微量热仪的准直接法在45 MPa等静压下测得了高巴塞罗那大学设备2011 [77] 巴塞罗那大学设备2017 [56] 爱荷华州立大学设备 [79] 德累斯顿强磁场中心设备 [78] 宁波材料所多卡设备 [75] . 美国德州农工大学Kara-man团队 [80] 于2015年报道了自制的可以同时施加单轴应力、磁场的置入式样品杆, 通过与最大场为9…”

Section: 温变的50% 这种直接测量所得的温变偏小的现象在unclassified

Characterization of caloric effects for magnetostructural transition materials: State-of-the-art and prospects

Wei¹,

Liu²,

Ouyang³

et al. 2021

Sci. Sin.-Phys. Mech. Astron.

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Advanced characterization of multicaloric materials in pulsed magnetic fields

Abstract: Note: This paper is part of the Special Topic on Multicalorics.

Cited by 32 publications

References 41 publications

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

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

Мультикалорики --- Новые Материалы Энергетики И Стрейнтроники -=sup=-*-=/Sup=- (О Б З О Р)

Characterization of caloric effects for magnetostructural transition materials: State-of-the-art and prospects

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