Electrical properties of ϒ-irradiation on nano composite ferrites: Radar systems and microwave application - Couverture souple
Synopsis
Ferrimagnetic ceramics exhibits spontaneous magnetization in the absence of an external field consists of self-saturated domains and show the characteristics hysteresis behavior. A remarkable property of ferrite is the combination of extension magnetic parameters such as high permeability, small coercive force, high saturation magnetization and low hysteresis loss. Ferrites have higher resistances than ferromagnetic material by several orders of magnitude. The dielectric dispersion with frequency was observed and successfully explained on the basis of Maxwell-Wagner theory of interfacial polarization in consonance with the Koops phenomenological theory. The lower value of dielectric loss for a sample having equal concentrations Zn2+ dopant and Ni2+ host material makes them suitable material for electromagnetic interference suppression, telecommunication, radar systems and microwave application. The high D.C. resistivity and conductivity are the desired characteristics of NiFe2O4: Zn nanoparticles used to prepare Ferro Fluids and magnetic coating.
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Electrical properties of ¿-irradiation on nano composite ferrites
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Scholars' Press Mrz 2020, 2020
ISBN 10 : 613892617X
ISBN 13 : 9786138926177
Neuf
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Taschenbuch. Etat : Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -Ferrimagnetic ceramics exhibits spontaneous magnetization in the absence of an external field consists of self-saturated domains and show the characteristics hysteresis behavior. A remarkable property of ferrite is the combination of extension magnetic parameters such as high permeability, small coercive force, high saturation magnetization and low hysteresis loss. Ferrites have higher resistances than ferromagnetic material by several orders of magnitude. The dielectric dispersion with frequency was observed and successfully explained on the basis of Maxwell-Wagner theory of interfacial polarization in consonance with the Koops phenomenological theory. The lower value of dielectric loss for a sample having equal concentrations Zn2+ dopant and Ni2+ host material makes them suitable material for electromagnetic interference suppression, telecommunication, radar systems and microwave application. The high D.C. resistivity and conductivity are the desired characteristics of NiFe2O4: Zn nanoparticles used to prepare Ferro Fluids and magnetic coating. 84 pp. Englisch. N° de réf. du vendeur 9786138926177
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Electrical properties of ?-irradiation on nano composite ferrites: Radar systems and microwave application
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Electrical properties of ?-irradiation on nano composite ferrites: Radar systems and microwave application
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Electrical properties of ?-irradiation on nano composite ferrites: Radar systems and microwave application
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Electrical properties of -irradiation on nano composite ferrites
Edité par
Scholars\' Press, 2020
ISBN 10 : 613892617X
ISBN 13 : 9786138926177
Neuf
Couverture souple
Vendeur : moluna, Greven, Allemagne
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Etat : New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. Autor/Autorin: Manohara Dr. B MDr. B, M, Manohara is a working as Assistant Professor and HOD of Physics Department in Government First Grade College & P. G Centre, Davanagere, Karnataka, India. He is 20 Years of teaching and 08 years of research e. N° de réf. du vendeur 385853901
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Electrical properties of ¿-irradiation on nano composite ferrites
Edité par
Scholars' Press Mär 2020, 2020
ISBN 10 : 613892617X
ISBN 13 : 9786138926177
Neuf
Taschenbuch
Vendeur : buchversandmimpf2000, Emtmannsberg, BAYE, Allemagne
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Taschenbuch. Etat : Neu. Neuware -Ferrimagnetic ceramics exhibits spontaneous magnetization in the absence of an external field consists of self-saturated domains and show the characteristics hysteresis behavior. A remarkable property of ferrite is the combination of extension magnetic parameters such as high permeability, small coercive force, high saturation magnetization and low hysteresis loss. Ferrites have higher resistances than ferromagnetic material by several orders of magnitude. The dielectric dispersion with frequency was observed and successfully explained on the basis of Maxwell-Wagner theory of interfacial polarization in consonance with the Koops phenomenological theory. The lower value of dielectric loss for a sample having equal concentrations Zn2+ dopant and Ni2+ host material makes them suitable material for electromagnetic interference suppression, telecommunication, radar systems and microwave application. The high D.C. resistivity and conductivity are the desired characteristics of NiFe2O4: Zn nanoparticles used to prepare Ferro Fluids and magnetic coating.VDM Verlag, Dudweiler Landstraße 99, 66123 Saarbrücken 84 pp. Englisch. N° de réf. du vendeur 9786138926177
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Electrical properties of ¿-irradiation on nano composite ferrites : Radar systems and microwave application
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Taschenbuch. Etat : Neu. nach der Bestellung gedruckt Neuware - Printed after ordering - Ferrimagnetic ceramics exhibits spontaneous magnetization in the absence of an external field consists of self-saturated domains and show the characteristics hysteresis behavior. A remarkable property of ferrite is the combination of extension magnetic parameters such as high permeability, small coercive force, high saturation magnetization and low hysteresis loss. Ferrites have higher resistances than ferromagnetic material by several orders of magnitude. The dielectric dispersion with frequency was observed and successfully explained on the basis of Maxwell-Wagner theory of interfacial polarization in consonance with the Koops phenomenological theory. The lower value of dielectric loss for a sample having equal concentrations Zn2+ dopant and Ni2+ host material makes them suitable material for electromagnetic interference suppression, telecommunication, radar systems and microwave application. The high D.C. resistivity and conductivity are the desired characteristics of NiFe2O4: Zn nanoparticles used to prepare Ferro Fluids and magnetic coating. N° de réf. du vendeur 9786138926177
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