Citas bibligráficas
Medina, J., (2010). Estudio de las fases amorfas y nanocristalinas del sistema Fe2Zr obtenidas por técnicas de mecano síntesis [Tesis, Universidad Nacional Mayor de San Marcos]. https://hdl.handle.net/20.500.12672/259
Medina, J., Estudio de las fases amorfas y nanocristalinas del sistema Fe2Zr obtenidas por técnicas de mecano síntesis [Tesis]. PE: Universidad Nacional Mayor de San Marcos; 2010. https://hdl.handle.net/20.500.12672/259
@misc{renati/476746,
title = "Estudio de las fases amorfas y nanocristalinas del sistema Fe2Zr obtenidas por técnicas de mecano síntesis",
author = "Medina Medina, José Julián",
publisher = "Universidad Nacional Mayor de San Marcos",
year = "2010"
}
-- In recent years, research on amorphous and nanocrystalline materials with new mechanical, chemical, and magnetic properties have attracted the interest of many groups of materials science due to the diversity of technological applications. There is also a growing interest in producing new materials by different techniques involving a remarkable reduction of production costs. In this thesis, it is carried out a comparative study of the formation of amorphous and nanocrystalline phases in the Fe-Zr system, with a nominal composition of 66.67 % at. Fe, which has interesting physical properties for potential technological applications. The samples were prepared following two different routes of mechano synthesis technique based on solid state reaction: Mechanical Alloying (MA), starting from pure elemental powders, and Mechanical Milling (MM) from powders of a intermetallic alloy previously produced by the technique of electric arc furnace. The structural analysis (long range order) of the samples was performed using X-ray diffraction (XRD). Moreover, microstructural analysis (short-range order) around Fe sites was performed by Transmission M¨ossbauer spectroscopy (TMS). The evolution of the process, employing TMS, allows us to determine the transition from a ferromagnetic phase to a paramagnetic amorphous phases in both routes of synthesis. The final results of the mechano synthesis after 9 hours of milling show that the sample processed by MA contains approximately 91% of amorphous phase, while that obtained by MM reaches approximately 68 %. Moreover, following the first route (MA), after 9 h milling, it is obtained a nanocrystalline Fe- phase with an average grain size of approximately 13 nm and a solid solution of Fe(Zr). Following the second route (MM) it is obtained a nanocrystalline Fe2Zr alloy with an average grain size of approximately 10 nm. Finally, theM¨ossbauer results show the homogeneity of the amorphous samples (after 9 h milling), independent of the followed routes.
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