Air gap influence on the vibro-acoustic response of Solar Arrays during launch

One of the primary elements on the space missions is the electrical power subsystem, for which the critical component is the solar array. The behaviour of these elements during the ascent phase of the launch is critical for avoiding damages on the solar panels, which are the primary source of energy for the satellite in its final configuration. The vibro-acoustic response to the sound pressure depends on the solar array size, mass, stiffness and gap thickness. The stowed configuration of the solar array consists of a multiple system composed of structural elements and the air layers between panels. The effect of the air between panels on the behaviour of the system affects the frequency response of the system not only modifying the natural frequencies of the wings but also as interaction path between the wings of the array. The usual methods to analyze the vibro-acoustic response of structures are the FE and BE methods for the low frequency range and the SEA formulation for the high frequency range. The main issue in the latter method is, on one hand, selecting the appropriate subsystems, and, on the other, identifying the parameters of the energetic system: the internal and coupling loss factors. From the experimental point of view, the subsystems parameters can be identified by exciting each subsystem and measuring the energy of all the subsystems composing the Solar Array. Although theoretically possible, in practice it is difficult to apply loads on the air gaps. To analyse this situation, two different approaches can be studied depending on whether the air gaps between the panels are included explicitly in the problem or not. For a particular case of a solar array of three wings in stowed configuration both modelling philosophies are compared. This stowed configuration of a three wing solar arrays in stowed configuration has been tested in an acoustic chamber. The measured data on the solar wings allows, in general, determining the loss factors of the configuration. The paper presents a test description and measurements on the structure, in terms of the acceleration power spectral density. Finally, the performance of each modelling technique has been evaluated by comparison between simulations with experimental results on a spacecraft solar array and the influence on the apparent properties of the system in terms of the SEA loss factors has been analyse

Influencia de la microestructura en las propiedades mecánicas de alta temperatura de los Eutécticos Al2O3/Y3Al5O12 crecidos por solidificación direccional

En este trabajo se ha realizado un estudio del sistema eutéctico Al2O3/Y3Al5O12 crecido a distintas velocidades mediante solidificación direccional de zona flotante por calentamiento con láser. El análisis microestructural se ha realizado mediante Microscopía Electrónica de Barrido (MEB) y de Transmisión (MET), tanto en muestras tras el procesado con láser como en muestras sometidas a los distintos tratamientos termo-mecánicos. El estudio de las propiedades mecánicas se ha llevado a cabo mediante ensayos a velocidad de deformación constante y ensayos de fluencia -a carga de compresión constante- para diversos valores de tensión y de temperatura en atmósfera de aire. De los resultados obtenidos se deduce que la resistencia está íntimamente asociada a la microestructura de las muestras, la cual depende de la velocidad de solidificación. La presencia de dislocaciones es clara a altas velocidades de deformación, observándose los mecanismos activos de deformación típicos de la alúmina monocristalinas, como son la formación de bucles de dislocaciones para evitar obstáculos. Los valores de los exponentes de tensión y la energía de activación sugieren un comportamiento difusional para bajas velocidades de deformación, a las que no se observan dislocaciones.The Al2O3/Y3Al5O12 eutectic system melt grown by laser heating float zone in a range of pull rates has been studied. The microstructural analysis has been made by Scaning Electron Microscopy (SEM) and Transmission Electron Microscopy (TEM) in as-fabricated and tested samples. The mechanical properties have been studied by compression tests at constant crosshead speed and compression creep for a range of stresses and temperatures in air. It has been determined that the resistance is intimately associated to processing. The presence of dislocations is clear after plastic deformation at high strain rates, being active the typical deformation mechanisms of alumina single crystals, like dislocation loop formation to avoid obstacles. The values of the stress exponents and the activation energy suggest a diffusional control for plastic deformation at low strain rates, where dislocations are not observed

Easing the questioning of semantic biomedical data

Researchers have been using semantic technologies as essential tools to structure knowledge. This is particularly relevant in the biomedical domain, where large dataset are continuously generated. Semantic technologies offer the ability to describe data and to map and linking distributed repositories, creating a network where the searching interface is a single entry point. However, the increasing number of semantic data repositories that are publicly available is creating new challenges related to its exploration. Despite being human and machine-readable, these technologies are much more challenging for end-users. Querying services usually require mastering formal languages and that knowledge is beyond the typical user’s expertise, being a critical issue in adopting semantic web information systems. In particular, the questioning of biomedical data presents specific challenges for which there are still no mature proposals for production environments. This paper presents a solution to query biomedical semantic databases using natural language. The system is at the intersection between semantic parsing and the use of templates. It makes it possible to extract information in a friendly way for users who are not experts in semantic queries.FCT - Portuguese Foundation for Science and Technology supports Arnaldo Pereira (Ph.D. Grant PD/BD/142877/2018).info:eu-repo/semantics/publishedVersio

Estudio de la citotoxicidad de cerámicas biomórficas de SiC recubiertas con vidrio bioactivo

La necesidad de desarrollar nuevos implantes basados en materiales bioactivos que sean capaces de soportar grandes cargas mecánicas ha llevado a la producción de sustratos metálicos recubiertos con cerámicas bioactivas. Recientemente se ha propuesto un dispositivo alternativo que consiste en un sustrato de carburo de silicio (SiC) biomórfico recubierto con vidrio bioactivo, mediante la técnica de Depósito por Láser Pulsado (PLD), y que dispone de la resistencia mecánica adecuada, además de gran ligereza y una porosidad intrínseca muy favorable de cara a la implantación. En este trabajo se presenta un estudio interdisciplinar de este nuevo material centrado en la morfología y porosidad de sustratos de SiC provenientes de diferentes maderas, la bioactividad de los recubrimientos producidos por PLD y en la evaluación in vitro con células de osteosarcoma MG-63 con la que se ha determinado la citotoxicidad de estos materiales y se ha estudiado la influencia de los mismos en la adhesión y la proliferación celular.In the past years there was a need to develop new tough bioactive materials capable to resist high loads when implanted in the body, that led to the production of bioactive coatings on metallic substrates. A new approach, which consists of biomorphic silicon carbide (SiC) coated with bioactive glass by Pulsed Laser Deposition (PLD), was recently presented. This new material joins the high mechanical strength, lightness and porosity of biomorphic SiC and the bioactive properties of PLD glass films. In this work, a multiple evaluation of this new material is presented starting from the biomorphic SiC morphology and porosity, following with the bioactivity in simulated body fluid of the coatings, and ending with a deep in vitro study with MG-63 cells. The citotoxicity of the SiC coated and uncoated and the cell proliferation and attachment were studied

Extensive studies on biomorphic SiC ceramics properties for medical applications

Biomorphic silicon carbide ceramics are light, tough and high-strength materials with interesting biomedical applications. The fabrication method of the biomorphic SiC is based in the infiltration of molten-Si in carbon preforms with open porosity. The final product is a biostructure formed by a tangle of SiC fibers. This innovative process allows the fabrication of complex shapes and the tailoring of SiC ceramics with optimised properties and controllable microstructures that will match the biomechanical requirements of the natural host tissue. An interdisciplinary approach of the biomorphic SiC fabricated from beech, sapelly and eucalyptus is presented. Their mechanical properties, microstructure and chemical composition were evaluated. The biocompatible behaviour of these materials has been tested in vitro

Resistencia a la insulina y Enfermedad de Alzheimer prodrómica en la Comunidad de La Rioja: primeras impresiones

Trabajo presentado en la XLIII Reunión de la Sociedad de Neurología del País Vasco, celebrada en Vitoria (España), el 6 de mayo de 202

Grafting Snake Melon [Cucumis melo L. subsp. melo Var. flexuosus (L.) Naudin] in Organic Farming: Effects on Agronomic Performance; Resistance to Pathogens; Sugar, Acid, and VOC Profiles; and Consumer Acceptance

The performance of snake melon [Cucumis melo var. flexuosus (L.)] in organic farming was studied under high biotic and salt stress conditions. Soilborne diseases (mainly caused by Macrophomina phaseolina and Neocosmospora falciformis), combined with virus incidence [Watermelon mosaic virus (WMV), Zucchini yellow mosaic virus (ZYMV), and Tomato leaf curl New Delhi virus (ToLCNDV)] and Podosphaera xanthii attacks, reduced yield by more than 50%. Snake melon susceptibility to M. phaseolina and Monosporascus cannonballus was proved in pathogenicity tests, while it showed some degree of resistance to Neocosmospora keratoplastica and N. falciformis. On the contrary, salt stress had a minor impact, although a synergic effect was detected: yield losses caused by biotic stress increased dramatically when combined with salt stress. Under biotic stress, grafting onto the melon F1Pat81 and wild Cucumis rootstocks consistently reduced plant mortality in different agroecological conditions, with a better performance compared to classic Cucurbita commercial hybrids. Yield was even improved under saline conditions in grafted plants. A negative effect was detected, though, on consumer acceptability, especially with the use of Cucurbita rootstocks. Cucumis F1Pat81 rootstock minimized this side effect, which was probably related to changes in the profile of sugars, acids, and volatiles. Grafting affected sugars and organic acid contents, with this effect being more accentuated with the use of Cucurbita rootstocks than with Cucumis. In fact, the latter had a higher impact on the volatile organic compound profile than on sugar and acid profile, which may have resulted in a lower effect on consumer perception. The use of Cucumis rootstocks seems to be a strategy to enable organic farming production of snake melon targeted to high-quality markets in order to promote the cultivation of this neglected crop.

Evaluación de la movilidad potencial de metales en escorias industriales presentes en el subsuelo de un entorno urbano (barrio de la Almozara, Zaragoza)

Pyrite roasting wastes coming from a former industry closed in 1979 are still present at the subsoil of La Almozara neighborhood (Zaragoza, Spain). These granular wastes are mainly composed of Fe- and Fe-Ti-oxides, also having high Tl, As, Mo, Cu, Sb, Ag, Pb, and Be content that far exceed the generic reference levels. When these waste materials interact with water, they produce acid solutions with pH=3,2, resulting in a high mobilization of Cu, Zn, Cd, Mn, and Co. However, when wastes are mixed with granular construction materials, leachates showed neutral pH and chemical mobilization was much lower being only significant for Se and Mo. The results here obtained demonstrate the potential risk for hydrogeological contamination posed by the presence of these wastes in the subsoil and the high eolic dispersability of such materials. El cierre en 1979 de la Industrial Química de Zaragoza dejó los residuos industriales de tostación de piritas en el subsuelo del actual barrio de La Almozara (Zaragoza). Estos residuos, de carácter granular y constituidos por óxidos de Fe y Fe-Ti, poseen elevadas concentraciones en Tl, As, Mo, Cu, Sb, Ag, Pb y Be, que superan ampliamente los niveles genéricos de referencia. La interacción de estos residuos con agua provoca soluciones con pH=3,2, dando lugar a una movilización elevada de Cu, Zn, Cd, Mn y Co. Sin embargo, cuando estos residuos están mezclados con material granular de construcción, las soluciones resultantes de la interacción mantienen un pH neutro y la movilización elemental es muy inferior, siendo solo relevante para Se y Mo. Los resultados obtenidos demuestran el potencial riesgo de contaminación del medio hidrogeológico que supone la presencia de las escorias en el subsuelo y su alta dispersabilidad eólica