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Micro & nano letters
Comparative study of structural, mechanical and electrical properties of Ni 0.8 Co 0.1 Cu 0.05 Mn 0.05 Fe 2 O 4 prepared from different combustion routes
article
P.S. Jadhav1  Ketaki K. Patankar2  V.L. Mathe3  V. Puri1 
[1] Thick and Thin film Device Laboratory, Department of Physics, Shivaji University;Department of Physics, Rajarm College;Novel Material Research Laboratory, Department of Physics, University of Pune
关键词: cobalt compounds;    combustion synthesis;    copper compounds;    crystal structure;    electrical resistivity;    ferrites;    Fourier transform spectra;    grain boundaries;    grain size;    infrared spectra;    magnetic domains;    magnetic particles;    magnetostriction;    manganese compounds;    nickel compounds;    scanning electron microscopy;    X-ray diffraction;    Young's modulus;    structural properties;    electrical properties;    mechanical properties;    solution combustion routes;    X-ray diffraction;    XRD patterns;    cubic spinel phase formation;    solid-state combustion method;    single cubic spinel phase formation;    scanning electron microscopic images;    agglomerated grains;    grain boundaries;    grain size;    microstrain calculation;    Young's modulus;    high spontaneous magnetostriction;    magnetic domains;    ferrite particles;    Fourier transform infrared study;    octahedral bond formation;    tetrahedral bond formation;    absorption peaks;    DC electrical resistivity;    dry combustion;    electric resistivity;    competent phase;    transducer application;    sensor devices;    Ni0.8Co0.1Cu0.05Mn0.05Fe2O4;    cobalt compounds;    combustion synthesis;    copper compounds;    crystal structure;    electrical resistivity;    ferrites;    Fourier transform spectra;    grain boundaries;    grain size;    infrared spectra;    magnetic domains;    magnetic particles;    magnetostriction;    manganese compounds;    nickel compounds;    scanning electron microscopy;    X-ray diffraction;    Young's modulus;    structural properties;    electrical properties;    mechanical properties;    solution combustion routes;    X-ray diffraction;    XRD patterns;    cubic spinel phase formation;    solid-state combustion method;    single cubic spinel phase formation;    scanning electron microscopic images;    agglomerated grains;    grain boundaries;    grain size;    microstrain calculation;    Young’s modulus;    high spontaneous magnetostriction;    magnetic domains;    ferrite particles;    Fourier transform infrared study;    octahedral bond formation;    tetrahedral bond formation;    absorption peaks;    DC electrical resistivity;    dry combustion;    electric resistivity;    competent phase;    transducer application;    sensor devices;    Ni0.8Co0.1Cu0.05Mn0.05Fe2O4;   
DOI  :  10.1049/mnl.2013.0012
学科分类:计算机科学(综合)
来源: Wiley
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【 摘 要 】

The aim of the article is to present a new possible way of an interactive teaching. The effort is to substitute proprietary software that is commonly used in educational process by open technologies. Since the subject of this article is oriented to the engineering area we devoted our attention to open software and we chose Maxima. Moreover, this tool can be available not only locally on the desktop computer or the notebook but also online via Internet. In the paper we also introduce examples of the implementation.

【 授权许可】

CC BY|CC BY-ND|CC BY-NC|CC BY-NC-ND   

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