Effect of Sintering Temperature on Structure, Piezoelectric and Ferroelectric Properties of (Na0.5Bi0.5)0.90Ba0.10TiO3 Ceramic
p.853
p.853
Thermodynamic and Dielectric Properties of MgSiN2 Ceramics
p.857
p.857
Ultrasonic Spray Nozzle System with Piezoelectric Ceramics for Water Treatment Applications
p.861
p.861
Pressure Sensing Using Electrostatic Capacitance
p.865
p.865
Preparation and Evaluation of Metal/Ceramic Nanocomposites for High Frequency Inductive Devices
p.869
p.869
Microstructural and Electrical Characterisation of LaxBa1-xTi1-xYxO3 (0≦ x≦ 0.50) Ceramics
p.873
p.873
A Structural Consideration of a Solid Solution La4Ni3-xMnxO10
p.877
p.877
Extraction of Crystal Structures Based on Euclidean Voronoi Diagram and Angle Distributions among Atoms
p.881
p.881
Sintering and Electronic Conducting Properties of La0.8Ca0.2CrO3 Perovskite-Type Complex Oxides Synthesized by Different Methods
p.885
p.885
Preparation and Evaluation of Metal/Ceramic Nanocomposites for High Frequency Inductive Devices
Abstract:
Fe/MgO nanocomposites, which are applicable to high frequency electronic devices, were fabricated by ultrasonic spray pyrolysis and selective reduction processes. Transmission electron micrographs showed that nano ferromagnetic Fe particles were isolated by MgO insulating matrix. With the increase of the reduction temperature, the particle size and saturation magnetization of the nanocomposites increased, which resulted in the decrease of the coercive force and the increase of the permeability. Furthermore, the ferromagnetic resonance peak of the nanocomposites was not observed up to 9 GHz.
You might also be interested in these eBooks
Info:
Periodical:
Key Engineering Materials (Volumes 317-318)
Pages:
869-872
Citation:
Online since:
August 2006
Authors:
Price:
Permissions: