In-situ laser synthesis of Nd–Al–O coatings: the role of sublattice cations in eutectic formation
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Other documents of the author: De Francisco, Isabel María; Bea, José Antonio; Vegas, Ángel; Carda Castelló, Juan Bautista; De la Fuente, Germán F.
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Title
In-situ laser synthesis of Nd–Al–O coatings: the role of sublattice cations in eutectic formationAuthor (s)
Date
2015-02xmlui.dri2xhtml.METS-1.0.item-edition
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International Union of CrystallographyBibliographic citation
DE FRANCISCO, Isabel María; BEA, José Antonio; VEGAS, Ángel; CARDA CASTELLÓ, Juan B.; DE LA FUENTE, Germán F. In-situ laser synthesis of Nd–Al–O coatings: the role of sublattice cations in eutectic formation. Acta Crystallographica Section B Structural Science, Crystal Engineering and Materials, (2015), v. 71, part 1, pp. 95-111Type
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Abstract
Neodymium aluminate coatings have been prepared in-situ by the laser zone melting (LZM) method, using a CO2 SLAB-type laser emitting at 10.6 µm. Polycrystalline Al2O3 commercial plates have been used as substrates, ... [+]
Neodymium aluminate coatings have been prepared in-situ by the laser zone melting (LZM) method, using a CO2 SLAB-type laser emitting at 10.6 µm. Polycrystalline Al2O3 commercial plates have been used as substrates, and coatings were prepared from the corresponding mixtures of powdered neodymium and aluminium oxides as starting materials. Microstructure, studied by SEM and phase composition, studied by XRD, proved the in-situ formation of a NdAlO3/NdAl11O18 eutectic. As a result, a well integrated composite coating was formed. Nanoindentation tests are consistent with excellent integration between coating and substrate. Structural similarities between the eutectic components within the coating, as well as between these and the substrate, are consistent with the crystallographic concepts proposed by Vegas (Ramos-Gallardo & Vegas, 1997[Ramos-Gallardo, A. & Vegas, A. (1997). J. Solid State Chem. 128, 69-72.]), where cation sub-arrays play an important role governing metal oxide structures. These structure sublattices are suggested as the driving force behind eutectic oxide formation. [-]
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Acta Crystallographica Section B Structural Science, Crystal Engineering and Materials, (2015), v. 71, part 1Rights
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