Study of molybdenum stable oxide film in simulated body fluid

This study's main goal is to thoroughly compare the mechanical attributes and biocompatibility of the recently created titanium alloy Ti15Mo7Zr15Ta1Si (62% Ti, 15% Mo, 7% Zr, 15% Ta, 1% Si) to that of the pure metal Mo. The samples underwent a series of meticulous preparation procedures, including chip preparation, polishing, grinding, and cutting, to enable a thorough evaluation. These preparation steps were essential for ensuring the samples' consistency and uniformity, which allowed for accurate and reliable analyses of their mechanical and corrosionrelated properties. The samples' microstructure and surface morphology were also investigated using metallographic techniques, allowing a thorough examination of any potential flaws, grain boundaries, or phase compositions. Additionally, electrochemical tests were used to investigate the materials' corrosion resistance and electrochemical characteristics in environments that mimicked physiological conditions. The samples were subjected to a variety of electrochemical analyses, such as polarization curves and impedance spectroscopy, in order for the researchers to fully comprehend the corrosion behavior of the materials and their suitability for biomedical applications

Enseñanza y aprendizaje bimodal de las Ciencias Penales. Materiales de estudio y evaluación para un correcto equilibrio docente

El presente proyecto de innovación tiene como objetivo desarrollar materiales de enseñanza, aprendizaje y evaluación Derecho Penal Penitenciario y Criminología para equilibrar la enseñanza y aprendizaje en un escenario de enseñanza bimodal

Perfeccionamiento y evaluación de las experiencias de enseñanza y aprendizaje bimodal en las Ciencias Penales desarrolladas durante el curso 2020-2021

Memoria de las actividades desarrolladas en el marco del Proyecto de Innovación Docente UCM curso 2021-2022 (continuación 2019-2020)