Primera evidencia experimental mediante microscopía electrónica de transmisión de la disociación de dislocaciones en el sistema TeO2
Copyright policy )Primera evidencia experimental mediante microscopía electrónica de transmisión de la disociación de dislocaciones en el sistema TeO2
En este trabajo se pretende analizar la microestructura de monocristales de TeO2 (paratelurita) deformados plásticamente en compresión uniaxial a alta temperatura (∼870 K) en distintas condiciones. Para ello, se han ensayado muestras con orientación cristalográfica [110], y se han cortado láminas correspondientes a los planos de deslizamiento para ser observadas con microscopía electrónica de transmisión. El estudio de la subestructura de dislocaciones en este material es complejo debido a su alta anisotropía. La observación de dicha microestructura ha puesto de manifiesto la presencia de disociación de dislocaciones. Es la primera vez que se encuentra este fenómeno en la paratelurita. De la distancia de equilibrio entre dislocaciones parciales, se ha podido obtener una estimación de la energía de falta de apilamiento en este sistema.
This work intends to analyse the microstructure of paratellurite (TeO2 single crystals) plastically deformed at high temperature ∼870 K) in uniaxial compression along [110]. Samples have been mechanically tested, and thin foils have been cut from them, corresponding to the slip systems to be observed in transmission electron microscopy. The study of the dislocation substructure in this material is rather complex due to its high anisotropy. Microstructural observation by TEM has put into evidence the presence of dislocation dissociation. This is the first work reporting this fact. From the equilibrium distance between partials, an estimation of the stacking fault energy has been carried out.
- University of Seville Spain
paratelurita, TeO2, Clay industries. Ceramics. Glass, TP785-869, dislocaciones, MET, TEM, paratellurite, single crystal, monocristal, dislocations
paratelurita, TeO2, Clay industries. Ceramics. Glass, TP785-869, dislocaciones, MET, TEM, paratellurite, single crystal, monocristal, dislocations
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