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Synopsis About this title This book brings together an emerging consensus on our understanding of the complex functional materials including ferroics, perovskites, multiferroics, CMR and high-temperature superconductors. About the Author : Prof. Buy New Learn more about this copy. Other Popular Editions of the Same Title.

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About this book This book presents current research on advanced magnetic materials and multifunctional composites. Show all.

Magnetic Ferrites and Applications

Magnetocaloric Materials Pages Lyubina, Julia. Show next xx. The material is the machine. Science , 53—54 Zarnetta, R. Identification of quaternary shape memory alloys with near-zero thermal hysteresis and unprecedented functional stability. Magnetic superelasticity and inverse magnetocaloric effect in Ni—Mn—In. Srivastava, V. The direct conversion of heat to electricity using multiferroic alloys. Energy Mater. Cui, J. Combinatorial search of the thermoelastic shape-memory alloys with extremely small hysteresis width. Ito, W.

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The Role of Topology in Materials

Atomic ordering and magnetic properties in the Ni45Co5Mn Flores, R. Optimization of the refrigerant capacity in multiphase magnetocaloric materials.


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Yu, S. Magnetic field-induced martensitic transformation and large magnetoresistance in NiCoMnSb. Download references. Thanks to K. Nenkov for technical support and to M. Sandeman for fruitful discussions. Correspondence to Jian Liu or Tino Gottschall. Reprints and Permissions. Journal of Magnetism and Magnetic Materials Journal of Alloys and Compounds Energy Conversion and Management Intermetallics Advanced search.

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Subjects Magnetic properties and materials Thermodynamics. Abstract Magnetic cooling could be a radically different energy solution substituting conventional vapour compression refrigeration in the future. Rent or Buy article Get time limited or full article access on ReadCube. Figure 1: Contributions from the magnetic and structural part for a first-order magnetic transition to the MCE.

Figure 2: Sensitivity of structural transition temperatures to the strength of magnetic field and associated giant cooling effect for Ni—Mn—In— Co alloys. Figure 3: Effect of essential parameters on the transition distribution and the dynamic cooling process under adiabatic conditions for Ni—Mn—In— Co alloys. Figure 4: Feasible solutions for the obstacles to the application of the Ni—Mn—In—Co alloy as a magnetic refrigerant. References 1 Gschneidner, K. Article Google Scholar 6 Hu, F.

Article Google Scholar 8 Tegus, O.

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Article Google Scholar 10 Gutfleisch, O. Article Google Scholar 19 Moya, X. Article Google Scholar 20 Aksoy, S. Article Google Scholar 21 Bourgault, D.

Bibliographic Information

Article Google Scholar 22 Khan, M. Article Google Scholar 23 Caron, L. Article Google Scholar 25 Umetsu, R. Article Google Scholar 26 Pecharsky, V.

Magnetism and Structure in Functional Materials

Article Google Scholar 27 Zverev, V. Article Google Scholar 28 Ortin, J. Article Google Scholar 30 Krenke, T. Article Google Scholar 31 Basso, V. Google Scholar 33 Morrison, K.