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Magnetocaloric effect : Current situation and future trendsTISHIN, A. M.Journal of magnetism and magnetic materials. 2007, Vol 316, Num 2, pp 351-357, issn 0304-8853, 7 p.Conference Paper

Making the most of the magnetic and lattice entropy changes : Magnetocaloric materialsPECHARSKY, V. K; GSCHNEIDNER, K. A; MUDRYK, Ya et al.Journal of magnetism and magnetic materials. 2009, Vol 321, Num 21, pp 3541-3547, issn 0304-8853, 7 p.Article

3D GdIII Complex Containing Gd16 Macrocycles Exhibiting Large Magnetocaloric EffectJIA, Ji-Min; LIU, Sui-Jun; YU CUI et al.Crystal growth & design. 2013, Vol 13, Num 11, pp 4631-4634, issn 1528-7483, 4 p.Article

The influence of substitutions on the magnetocaloric effect in RCo2 compoundsKASTIL, Jirí; JAVORSKY, Pavel.International journal of materials research. 2009, Vol 100, Num 9, pp 1206-1209, issn 1862-5282, 4 p.Article

Large magnetocaloric effects and landau coefficients of itinerant electron metamagnetic la(FexSi1-x)13 compoundsFUJITA, A; FUKAMICHI, K.IEEE transactions on magnetics. 2005, Vol 41, Num 10, pp 3490-3492, issn 0018-9464, 3 p.Conference Paper

Maximizing the temperature span of a solid state active magnetic regenerative refrigeratorSILVA, D. J; VENTURA, J; ARAUJO, J. P et al.Applied energy. 2014, Vol 113, pp 1149-1154, issn 0306-2619, 6 p.Article

Structure and magnetocaloric properties of La1-xKxMnO3 manganitesALIEV, A. M; GAMZATOV, A. G; BATDALOV, A. B et al.Physica. B, Condensed matter. 2011, Vol 406, Num 4, pp 885-889, issn 0921-4526, 5 p.Article

Magnetocaloric effect on the Pr0.43Gd0.25Ca0.32MnO3 manganiteGOMES, A. M; REIS, M. S; GUIMARAES, A. P et al.Journal of magnetism and magnetic materials. 2004, Vol 272-76, pp 2385-2386, issn 0304-8853, 2 p., 3Conference Paper

A simple magnetic refrigerator evaluation modelHUANG, Wen-Nan; TENG, Ching-Cheng.Journal of magnetism and magnetic materials. 2004, Vol 282, Num 1, pp 311-316, issn 0304-8853, 6 p.Conference Paper

The relation between magnetoresistance and magnetocaloric effect in La0.85Ag0.15MnO3 manganiteGAMZATOV, A. G; BATDALOV, A. B.Physica. B, Condensed matter. 2011, Vol 406, Num 10, pp 1902-1905, issn 0921-4526, 4 p.Article

Experimental investigation of an active magnetic regenerative heat circulator applied to self-heat recuperation technologyKOTANI, Yui; KANSHA, Yasuki; ISHIZUKA, Masanori et al.Applied thermal engineering. 2014, Vol 70, Num 2, pp 1202-1207, issn 1359-4311, 6 p.Conference Paper

Giant induced anisotropy ruins the magnetocaloric effect in gadoliniumTASKAEV, S. V; KUZ'MIN, M. D; SKOKOV, K. P et al.Journal of magnetism and magnetic materials. 2013, Vol 331, pp 33-36, issn 0304-8853, 4 p.Article

Transdisciplinary aspects of diffusion and magnetocaloric effectKALVA, Z; SESTAK, J.Journal of thermal analysis and calorimetry. 2004, Vol 76, Num 1, pp 67-74, issn 1388-6150, 8 p.Conference Paper

Anisotropic Magnetocaloric Effect in Single-crystalline Pr0.52Sr0.48MnO3PATRA, M; MAJUMDAR, S; GIRI, S et al.Journal of superconductivity and novel magnetism. 2011, Vol 24, Num 1-2, pp 775-777, issn 1557-1939, 3 p.Conference Paper

A simple magnetic refrigerator evaluation modelHUANG, Wen-Nan; TENG, Ching-Cheng.Journal of magnetism and magnetic materials. 2004, Vol 282, pp 311-316, issn 0304-8853, 6 p., NSConference Paper

A test stand to study the possibility of using magnetocaloric materials for refrigeratorsCZERNUSZEWICZ, A; KALETA, J; KROLEWICZ, M et al.International journal of refrigeration. 2014, Vol 37, pp 72-77, issn 0140-7007, 6 p.Article

A new magnetocaloric refrigeration principle with solid-state thermoelectric thermal diodesTOMC, Urban; TUSEK, Jaka; KITANOVSKI, Andrej et al.Applied thermal engineering. 2013, Vol 58, Num 1-2, pp 1-10, issn 1359-4311, 10 p.Article

Magnetocaloric effect of Co(S1-xSex)2WADA, H; TANAKA, K; TAJIRI, A et al.Journal of magnetism and magnetic materials. 2005, Vol 290-91, pp 706-708, issn 0304-8853, 3 p., 1Conference Paper

Performance modeling of AMR refrigeratorsBURDYNY, Thomas; RUEBSAAT-TROTT, Alex; ROWE, Andrew et al.International journal of refrigeration. 2014, Vol 37, pp 51-62, issn 0140-7007, 12 p.Article

Recent progress in magnetocaloric effect: Mechanisms and potential applicationsTISHIN, A. M; SPICHKIN, Y. I.International journal of refrigeration. 2014, Vol 37, pp 223-229, issn 0140-7007, 7 p.Article

Magnetocaloric effect in Gd(1―y)DyyAl2ALHO, B. P; RIBEIRO, P. O; ALVARENGA, T. S. T et al.International journal of refrigeration. 2014, Vol 37, pp 297-302, issn 0140-7007, 6 p.Article

Developments in magnetocaloric refrigerationBRÜCK, Ekkes.Journal of physics. D, Applied physics (Print). 2005, Vol 38, Num 23, pp R381-R391, issn 0022-3727Article

Handling mixed-state magnetization data for magnetocaloric studies: a solution to achieve realistic entropy behaviourDAS, S; AMARAL, J. S; AMARAL, V. S et al.Journal of physics. D, Applied physics (Print). 2010, Vol 43, Num 15, issn 0022-3727, 152002.1-152002.4Article

Smaller lasers demand new approaches to chiller designKRUPNICK, Stu.Laser focus world. 2000, Vol 36, Num 11, pp 157-162, issn 1043-8092, 4 p.Article

Magnetocaloric effect at the first-order magnetic phase transitionsSPICHKIN, Y. I; TISHIN, A. M.Journal of alloys and compounds. 2005, Vol 403, Num 1-2, pp 38-44, issn 0925-8388, 7 p.Article

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