Keyword [magnetic refrigeration]
Result: 1 - 20 | Page: 1 of 4 |
| 1. | Magnetocaloric Effect And Magnetic Phase Transition Of GdSiGe Alloys For Room Temperature Magnetic Refrigeration |
| 2. | Theoretical Research On Mechanism Of Magnetic Phase Transition For Room Temperature Magnetic Refrigeration GdSiGe Alloys And Their Nano-calculations |
| 3. | The Synthesis, Structrue And Physical Properties Of The Earth Metal Gd And Its Compouds |
| 4. | New Room Temperature Magnetic Refrigerant Materials |
| 5. | Investigation On Corrosion And Protection Of Magnetic Refrigerating Material Gadolinium |
| 6. | Magneto-Caloric Properties Of New Rare Earth-Transition Metal Based Compound |
| 7. | Magneticaloric Effect And Phase Structure Of La(Fe, Si)13 And (Nd1-xCex)2Fe17 Compounds |
| 8. | Fabrication, Microstructure And Properties Of Perovskite-like Manganites |
| 9. | Preparation Of Perovskite Manganese Oxide Magnetic Refrigeration Materials |
| 10. | The Study Of Perovskite Structure La1-XKXMnO3 Series Complex Materials Synthesis And Magnetocaloric Property |
| 11. | High-spin Mixed-valence Manganese Cluster: Preparation, Magnetic Properties And Magnetic Refrigeration |
| 12. | Preparation And Magnetocaloric Effects Of Fe-based Amorphous Ribbons |
| 13. | Synthesis, Structure And Properties Of Gdâ…¢-Based Molecular Coolers And Metal-Azido Compounds |
| 14. | Magnetic Properties And Magnetocaloric Effects In Mn50-XFe10+XAl40 And Mn38Fe22Al40(B,C)y Alloys |
| 15. | Synthesis,Structures And Properties Of Rare Earth Complexes Based On Carboxylates |
| 16. | Construction And Properties Of Molecule-based Magnetic Complexes Derived From Carboxylate Ligands |
| 17. | Syntheses, Luminescent And Magnetic Properties Of Novel Coordination Polymers |
| 18. | Preparation, Structure And Magnetocaloric Effect Of Gd-Co Based Amorphous Ribbons And La1-xCex(Fe,Co,Si)13 Compounds |
| 19. | Structure, Magnetic Properties And Magnetocaloric Effect Of Gd-Mn-M Melt-spun Alloys And Gd-Si-Ge-Ni Alloys |
| 20. | Investigation On The Phase Transformation And Magnetocaloric Effect Of Ni-Mn-Sb-Si Ferromagnetic Shape Memory Alloys |
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