295 resultados para PUERTOS SECOS
Resumo:
En el presente trabajo se estudia la influencia de la radiación UV sobre las propiedades mecánicas y las superficies de fractura de un polímero artificial bioinspirado en la seda de araña. Las fibras de seda de araña constituyen un material enormemente atractivo ya que su elevada resistencia y deformabilidad lo convierten en el material con mayor trabajo hasta rotura de los conocidos hasta el momento. Además se ha encontrado que posee una elevada biocompatibilidad y un comportamiento biodegradable. Debido a estas excelentes propiedades se han dedicado importantes esfuerzos a intentar producir fibras inspiradas en la seda de araña. Fruto de estos esfuerzos es el polímero artificial estudiado en este trabajo. Dicho polímero presenta una secuencia de aminoácidos inspirada en la spidroína 1, que es una de las dos proteínas que conforman la seda de araña natural. Uno de los factores más perjudiciales para los polímeros es la radiación ultravioleta (UV), de presencia ubicua en aplicaciones al aire libre, ya que puede provocar la modificación de sus enlaces covalentes y, como consecuencia, modificar sus propiedades mecánicas. Para evaluar el efecto de la radiación UV sobre el material bioinspirado se ha estudiado el comportamiento a tracción simple de fibras sometidas a diferentes tiempos de irradiación con luz UV de longitud de onda de 254 nm. Se ha observado que la radiación UV de 254 nm modifica considerablemente las propiedades mecánicas de este material a tiempos de exposición elevados (a partir de 3 días de irradiación). Además se ha estudiado el comportamiento a fractura de este material cuando es irradiado con luz UV. Se ha observado que a medida que aumenta el tiempo de irradiación las superficies de fractura comienzan a ser cada vez más planas, obteniéndose un aspecto extremadamente especular para muestras irradiadas durante 16 días
Resumo:
..
Resumo:
Rotator cuff tears of the shoulder are a common cause of pain and disability. Although surgery is frequently beneficial, re-tearing of the tendons is likely to re-occur. In many cases even if the reparation is successful it will still generate discomfort, problems with mobility, as well as a sharp pain. This project is funded in the cooperation with the Hospital Clinico San Carlos de Madrid. The purpose of this work is to analyze the effect of the surgical repair and the application of different therapies, including mesenchymal stem cell therapy on the biomechanical properties (strength and stiffness) of the repaired tendon. An animal model of rotator cuff tendon reparations has been developed on laboratory rats.To obtain the mechanical response of the healthy and repaired tendons, it was necessary to develop an experimental set up to reproduce the in-vivo working conditions of the tendons (37 ºC, immersed in physiological serum), and especially the load transfer. The biomechanical properties (maximum load and stiffness) have been measured in healthy and repaired tendons. A total of 70 rats are used in this particular study. It has been found that the repaired tendon is stronger than the original on. However, the repaired tendons demonstrate less flexibility than the healthy (original) ones prior to the damage
Resumo:
Las excelentes propiedades de este biomaterial se conocen desde antaño. Se están desarrollando ahora nuevas aplicaciones en la reparación de tejidos y en farmacología
Resumo:
The mechanical properties of aortic wall, both healthy and pathological, are needed in order to develop and improve diagnostic and interventional criteria, and for the development of mechanical models to assess arterial integrity. This study focuses on the mechanical behaviour and rupture conditions of the human ascending aorta and its relationship with age and pathologies. Fresh ascending aortic specimens harvested from 23 healthy donors, 12 patients with bicuspid aortic valve (BAV) and 14 with aneurysm were tensile-tested in vitro under physiological conditions. Tensile strength, stretch at failure and elbow stress were measured. The obtained results showed that age causes a major reduction in the mechanical parameters of healthy ascending aortic tissue, and that no significant differences are found between the mechanical strength of aneurysmal or BAV aortic specimens and the corresponding age-matched control group. The physiological level of the stress in the circumferential direction was also computed to assess the physiological operation range of healthy and diseased ascending aortas. The mean physiological wall stress acting on pathologic aortas was found to be far from rupture, with factors of safety (defined as the ratio of tensile strength to the mean wall stress) larger than six. In contrast, the physiological operation of pathologic vessels lays in the stiff part of the response curve, losing part of its function of damping the pressure waves from the heart.
Resumo:
The effect of three different aging methods (immersion in hot water, freeze–thaw cycles and wet–dry cycles) on the mechanical properties of GRC were studied and compared. Test results showed that immersion in hot water may be an unreliable method for modified GRC formulations, with it being in probability a very harmful procedure. A new aging method, mixing freeze–thaw cycles and wet–dry cycles, seems to be the most accurate simulation of weather conditions that produce a noticeable change in GRC mechanical properties. Future work should be carried out to find a correlation between real weather and the proposed aging method.
Resumo:
Regenerated silkworm fibers spun through a wet-spinning process followed by an immersion postspinning drawing step show a work to fracture comparable with that of natural silkworm silk fibers in a wide range of spinning conditions. The mechanical behavior and microstructure of these high performance fibers have been characterized, and compared with those fibers produced through conventional spinning conditions. The comparison reveals that both sets of fibers share a common semicrystalline microstructure, but significant differences are apparent in the amorphous region. Besides, high performance fibers show a ground state and the possibility of tuning their tensile behavior. These properties are characteristic of spider silk and not of natural silkworm silk, despite both regenerated and natural silkworm silk share a common composition different from that of spider silk.
Resumo:
Cold-drawn steel rods and wires retain significant residual stresses as a consequence of the manufacturing process. These residual stresses are known to be detrimental for the mechanical properties of the wires and their durability in aggressive environments. Steel makers are aware of the problem and have developed post-drawing processes to try and reduce the residual stresses on the wires. The present authors have studied this problem for a number of years and have performed a detailed characterization of the residual stress state inside cold-drawn rods, including both experimental and numerical techniques. High-energy synchrotron sources have been particularly useful for this research. The results have shown how residual stresses evolve as a consequence of cold-drawing and how they change with subsequent post-drawing treatments. The authors have been able to measure for the first time a complete residual strain profile along the diameter in both phases (ferrite and cementite) of a cold-drawn steel rod.
Resumo:
The possible deleterious effects of coiling and long-term storage of coiled wires on the stress relaxation behaviour of prestressing steel wires has been checked by means of experimental work and a simple analytical model. The results show that if the requirements of standards are fulfilled (minimum coiling diameters), these effects can be neglected. However, some other factors, such as previous residual stresses, long-term storage or storage at high temperatures, can trigger or emphasize this damage to the material. In the authors' opinion, checking the final curvature of the wires after uncoiling prior to prestressing, as required in some standards, is to be recommended.
Resumo:
La pérdida de tensión por relajación en las armaduras activas afecta de forma importante a las estructuras de hormigón pretensado. Por ello se realizan ensayos de relajación de los alambres y cordones de pretensado tras su fabricación. Después, el material es enrollado y almacenado durante periodos que en ocasiones pueden superar el año de duración. Generalmente se desprecia la influencia que estas operaciones posteriores a la fabricación pueden tener sobre el material. Sin embargo, diversos fabricantes y suministradores han constatado experimentalmente que, en ocasiones, el material almacenado durante un periodo prolongado presenta pérdidas de relajación mayores que inmediatamente tras su fabricación. En este trabajo se realizan ensayos de laboratorio para comprobar la influencia que el radio de enrollamiento y el periodo de almacenamiento tienen sobre las pérdidas de relajación. También se propone un modelo analítico que permite predecir de manera razonablemente aproximada el valor del ensayo de relajación sobre un alambre sometido a un enrollamiento prolongado. Este modelo explica la evolución del perfil de tensiones durante el proceso de enrollamiento-almacenamiento-desenrollamiento, así como la influencia de las tensiones residuales
Resumo:
Eutectic rods of Al2O3–Er3Al5O12 were grown by directional solidification using the laser-heated floating zone method at rates in the range 25–1500 mm/h. Their microstructure and mechanical properties (hardness, toughness and strength) were investigated as a function of the growth rate. A homogeneous and interpenetrated microstructure was found in most cases, and interphase spacing decreased with growth rate following the Hunt–Jackson law. Hardness increased slightly as the interphase spacing decreased while toughness was low and independent of the microstructure. The rods presented very high bending strength as a result of the homogeneous microstructure, and their strength increased rapidly as the interphase spacing decreased, reaching a maximum of 2.7 GPa for the rods grown at 750 mm/h. The bending strength remained constant up to 1300 K and decreased above this temperature. The relationship between the microstructure and the mechanical properties was established from the analysis of the microstructure and of the fracture mechanisms
Resumo:
Nowadays, the electronic industry demands small and complex parts as a consequence of the miniaturization of electronic devices. Powder injection moulding (PIM) is an emerging technique for the manufacturing of magnetic ceramics. In this paper, we analyze the sintering process, between 900 °C and 1300 °C, of Ni–Zn ferrites prepared by PIM. In particular, the densification behaviour, microstructure and mechanical properties of samples with toroidal and bar geometry were analyzed at different temperatures. Additionally, the magnetic behaviour (complex permeability and magnetic losses factor) of these compacts was compared with that of samples prepared by conventional powder compaction. Finally, the mechanical behaviour (elastic modulus, flexure strength and fracture toughness) was analyzed as a function of the powder loading of feedstock. The final microstructure of prepared samples was correlated with the macroscopic behaviour. A good agreement was established between the densities and population of defects found in the materials depending on the sintering conditions. In general, the final mechanical and magnetic properties of PIM samples were enhanced relative those obtained by uniaxial compaction.
Resumo:
In this study, the mechanical properties of YBa2Cu3O7−x, obtained by the Bridgman technique, were examined using a Berkovich tip indenter on the basal plane (0 0 1). Intrinsic hardness was measured by nanoindentation tests and corrected using the Nix and Gao model for this material. Furthermore, Vickers hardness tests were performed, in order to determine the possible size effect on these measurements. The results showed an underestimation of the hardness value when the tests were performed with large loads. Moreover, the elastic modulus of the Bridgman samples was 128 ± 5 GPa. Different residual imprints were visualised by atomic force microscopy and a focused ion beam, in order to observe superficial and internal fracturing. Mechanical properties presented a considerable reduction at the interface. This effect could be attributed to internal stress generated during the texturing process. In order to corroborate this hypothesis, an observation using transmission electron microscopy was performed.
Resumo:
El objetivo definitivo de esta investigación es la de buscar un sistema, que siendo sencillo y ocupando poco espacio, pueda aplicarse a las aguas de salida de una depuradora o aguas normales circulando por corrientes fluviales, alcanzando calidad para distintos usos. Así se investiga sobre la posibilidad de utilizar el proceso de electrocoagulación sobre distintos parámetros considerados en la normativa sobre reutilización de las aguas ?Real Decreto 1620/2007, de 7 de diciembre, por el que se establece el régimen jurídico de la reutilización de las aguas depuradas (BOE n.º 294, 08/12/2007)?. En la investigación se ha diseñado una planta piloto, a escala real 140 l/h, en la que el agua a tratar pasa secuencialmente a través de un depósito de pretratamiento, un depósito de procesamiento electroquímico, y un depósito de post-tratamiento, que puede pasar a un decantador o a un depósito de flotación. La experimentación realizada concluye sobre los buenos resultados de la aplicación del sistema de electrocoagulación, en relación con el grado de cumplimiento respecto a las normativas actuales de reutilización. Los resultados garantizan las posibilidades del proceso en la eliminación de: la turbidez, sólidos suspendidos totales (SST), DQO y fosfatos en fósforo total, así como en la eliminación de microorganismos. Estos resultados justifican que la electrocoagulación puede constituirse en un sistema de tratamiento y depuración de las aguas, tanto en la lucha contra su eutrofización, eliminando fosfatos, como en su mejora de forma previa al empleo de membranas, como en la mejora de la calidad de las aguas de salida de las depuradoras o circulante por los ríos. Su sencillez, facilidad de montaje y bajo consumo energético lo avalan.
Resumo:
Por su facilidad constructiva y la relativa sencillez de su análisis estructural, el paraboloide hiperbólico de hormigón armado es una forma profusamente utilizada por el arquitecto Félix Candela (1910-1997). En este artículo se analiza el comportamiento de varias de esas obras. Concretamente dos paralelogramos alabeados [1], el restaurante Los Manantiales (México) y la Iglesia de Guadalupe (Madrid). Se explica la geometría del paraboloide hiperbólico y se describe brevemente el análisis estructural presentado por Félix Candela. Los resultados presentados posteriormente confirman la distribución de esfuerzos descrita por Candela. En todos los casos estudiados las tensiones resultan ser admisibles para el hormigón. Se ha verificado también el comportamiento de membrana de las estructuras mediante un factor cuyo valor oscila entre 0 (flexión pura) y 1 (membrana pura). El comportamiento se aleja o acerca al de membrana pura en función de las condiciones de apoyo como ya recalcó el arquitecto madrileño
