Novel Procedure for Laboratory Scale Production of Composite Functional Filaments for Additive Manufacturing

Successful 3D printing by material extrusion of functional parts for new devices requires high quality filaments. Uniform homogeneity and good dispersion of particles embedded in filaments typically takes several cycles of extrusion or well-prepared feedstock by injection molding, industrial kneaders or twin-screw compounding. These methods need specific production devices that are not available in many laboratories non-specialized in polymer research, such as those working on different material science and technology topics that try to connect with additive manufacturing. Therefore, laboratory studies are usually limited to compositions and filler concentrations provided by commercial companies. Here, we present an original laboratory scale methodology to custom-prepare the feedstock for extruding magnetic composite filaments for fused filament fabrication (FFF), which is attainable by a desktop single-screw extruder. It consists in encapsulating the fillers in custom made capsules that are used as feedstock and reach the melting area of the extruder maintaining the same concentration of fillers. Results have shown that our approach can create smooth and continuous composite filaments with good homogeneity and printability with fine level of dimensional control. We further show the good dispersion of the particles in the composite filament using X-Ray Tomography, which enabled a 3D reconstruction of the spacial distribution of the embedded magnetic particles. The major advantage of this new way of preparing the composite feedstock is that it avoids the hassle of multiple extrusion runs and industrial machinery, yet providing uniform filaments of well controlled filler concentration, which is predictable and reproducible. The proposed methodology is suitable for different polymer matrices and applicable to other functional particle types, not just limited to magnetic ones. This opens an avenue for further laboratory scale development of novel functional composite filaments, useful for any community. This democratization of complex filament preparation, including consumers preparing their own desired uniform novel filaments, will facilitate to unify efforts nearing 3D printing of new functional devices.Fondo Europeo de Desarrollo Regional MAT-201677265-RJunta de Andalucía US-1260179, P18-RT-74

Development of efficient recirculation system for Tilapia (Oreochromis niloticus) culture using low cost materials

In the current experiment, a recirculation system was built using low cost materials that are available locally and its performance was tested. The performance evaluation procedure was carried out in an aquaculture system in greenhouse with sex-reversed male Nile tilapia (Oreochromis niloticus) production in Querétaro State, Mexico. The recirculation system had four sections (sediment collector, gravel and sand filters, biofilter and clarification) in order to eliminate the organic matter produced by the fish excretion material and uneaten food, as well as, the nitrogenous compounds undesirable in the water tanks, such as, total ammonia nitrogen (TAN). The monitored variables include: temperature, dissolved oxygen, pH, visibility, TAN, nitrites and nitrates. The obtained data were compared with previous studies to evaluate the achieved state of the system. This research clearly demonstrated that it is feasible to use the proposed configuration in aquaculture systems in areas where water source is limited. Consequently, the obtained results represent an environmental standpoint for the conservation of water use in the aquaculture industry and also constitute an important contribution to the aquaculture and farmers who receive minimal economic support.Key words: Water recirculation, aquaculture, sustainability, low cost, water use efficiency

Laser treatment of nanoparticulated metal thin films for ceramic tile decoration

This paper presents a new method for the fabrication of metal-like decorative layers on glazed ceramic tiles. It consists of the laser treatment of copper thin films prepared by electron beam evaporation at glancing angles. A thin film of discontinuous copper nanoparticles was electron beam evaporated in an oblique angle configuration onto ceramic tiles and an ample palette of colors obtained by laser treatment both in air and in vacuum. Scanning electron microscopy (SEM and FESEM) along with UV-vis-NIR spectroscopy and time of flight secondary ion mass spectrometry (TOF-SIMS) analysis were used to characterize the differently colored layers. Based on these analyses, color development has been accounted for by a simple model considering surface melting phenomena and different microstructural and chemical transformations of the outmost surface layers of samples.Financial support from the EU (Grant LIFE11/ENV/ES560), Innovaragon (Grant ITA-DGA/ES 1368), DGA (Group T87), MINECO (Projects MAT2013-40852-R and MAT2013-42900-P), and Junta de Andalucia (Projects TEP 8067 and FQM 6900) is gratefully acknowledged. F.R.-G. acknowledges the Portuguese Science and Technology Foundation for Grant SFRH/BPD/108581/2015.Peer reviewe

Anisotropic in-plane conductivity and dichroic gold plasmon resonance in plasma assisted ITO thin films e-beam evaporated at oblique angles

ITO thin films have been prepared by electron beam evaporation at oblique angles (OA), directly and while assisting their growth with a downstream plasma. The films microstructure, characterized by scanning electron microscopy, atomic force microscopy and glancing incidence small angle X-ray scattering, consisted of tilted and separated nanostructures. In the plasma 2 assisted films, the tilting angle decreased and the nanocolumns became associated in the form of bundles along the direction perpendicular to the flux of evaporated material. The annealed films presented different in-depth and sheet resistivity as confirmed by scanning conductivity measurements taken for the individual nanocolumns. In addition, for the plasma assisted thin films, two different sheet resistance values were determined by measuring along the nanocolumn bundles or along the perpendicular direction. This in-plane anisotropy induces the electrochemical deposition of elongated gold nanostructures. The obtained Au-ITO composite thin films were characterized by anisotropic plasmon resonance absorption and a dichroic behavior when examined with linearly polarized light

Kinetic Energy-induced Growth Regimes of Nanocolumnar Ti Thin Films Deposited by Evaporation and Magnetron Sputtering

We experimentally analyze different growth regimes of Ti thin films associated to the existence of kinetic energy-induced relaxation mechanisms in the material's network when operating at oblique geometries. For this purpose, we have deposited different films by evaporation and magnetron sputtering under similar geometrical arrangements and at low temperatures. With the help of a well-established growth model we have found three different growth regimes: (i) low energy deposition, exemplified by the evaporation technique, carried out by species with typical energies in the thermal range, where the morphology and density of the film can be explained by solely considering surface shadowing processes, (ii) magnetron sputtering under weak plasma conditions, where the film growth is mediated by surface shadowing mechanisms and kinetic-energy-induced relaxation processes, and (iii) magnetron sputtering under intense plasma conditions, where the film growth is highly influenced by the plasma, and whose morphology is defined by nanocolumns with similar tilt than evaporated films, but with much higher density. The existence of these three regimes explains the variety of morphologies of nanocolumnar Ti thin films grown at oblique angles under similar conditions in the literature.EU-FEDER and MINECO-AEI 201560E055EU-FEDER and MINECO-AEI MAT2014-59772-C2-1-PEU-FEDER and MINECO-AEI MAT2016-79866-REU-FEDER and MINECO-AEI MAT2015-69035-REDCUniversity of Seville V and VI PPIT-U

Self-care and therapeutic education in hypertension. An integrative review

Objetivo: El objetivo de este estudio fue revisar la literatura reciente relacionada a la modificación de hábitos de vida relacionados con la alimentación o el ejercicio físico para conseguir una mejor evolución de la enfermedad y conocer las mejores medidas para permitir una elevada tasa de cumplimiento de las recomendaciones. Método: Se realizó una búsqueda bibliográfica en las bases de datos PudMed, Lilacs, Scielo y Enfispo en Marzo de 2013. El límite temporal fue de 5 años. Se buscaron las palabras clave en título, abstract y como descriptores. Resultados: Se obtuvieron un total de 1050 artículos, de los cuales 978 (93%) fueron excluidos. El principal motivo de exclusión fue el año de publicación, anterior a 2008. PubMed fue la base de datos con mayor número de artículos, seguida de Lilacs. Los artículos de carácter descriptivo fueron los más predominantes con un total de 35 artículos recuperados (56.45%). Conclusiones: La dieta DASH se ofrece como una posible alternativa para el desarrollo de intervenciones relacionadas con la alimentación en pacientes hipertensos. Respecto al ejercicio físico, el programa CIMEQ parece que muestra beneficios en el control de las cifras de TA. No se han encontrado estrategias solidas que garanticen la adherencia a las recomendaciones terapéuticas relacionadas con el ejercicio físico y la alimentación. Parece necesario desarrollar investigaciones de calidad que ayuden a conocer cuáles son las mejores estrategias en educación terapéutica en pacientes con hipertensión.Objectives: The aim of this study was to review the recent literature related to the modification of lifestyle habits related to diet or exercise to get a better evolution of the disease and to know the best measures to allow a high rate of compliance with the recommendations. Method: A bibliographical search was realized in the databases PudMed, Lilacs, Scielo and Enfispo in March, 2013.The temporary limit was 5 years. The key words were looked up in title, abstract and as describers. Results: There were obtained a total of 1050 articles, from which 978 (93%) were excluded. The main motive of exclusion was the year of publication, previous of 2008. Pubmed was the database with major number of articles, followed by Lilacs. The articles of descriptive character were the most predominant with a total of 35articles recovered (56.45%). Conclusions: The DASH diet offers as a possible alternative for the development of interventions related to the feeding in hypertense patients. With regard to the physical exercise, the program CIMEQ seems that it shows benefits in the control of the numbers of TA. Solid strategies that guarantee the adherence to the therapeutic recommendations related to the physical exercise and the feeding were not found. It seems to be necessary to develop quality researches that help to know which are the best strategies in therapeutic education in patients with hypertension

Laser-induced coloration of ceramic tiles covered with magnetron sputtered precursor layers

This paper reports a new methodology for the coloring of glazed ceramic tiles consisting of the near infrared pulsed laser processing of copper containing oxide coatings prepared by magnetron sputtering. As a second approach, the employ for the same purpose of a novel laser furnace technique is also described. Changing the laser parameters and using the laser furnace to treat the tiles at high temperature during irradiation has resulted in a wide color palette. The optical characterization of the modified tiles by UV-Vis spectroscopy has been complemented with their microstructural and compositional analysis by Scanning Electron Microscopy (SEM), Transmission Electron Microscopy (TEM), and Time Of Flight Secondary Ion Mass Spectrometry (TOF-SIMS). The chemical composition of the surface was obtained by X-ray Photoemission Spectroscopy (XPS) and its structure determined by X?ray diffraction (XRD). The chemical resistance was characterized by several tests following the norm ISO 10545-13. Color changes have been attributed to surface microstructural and chemical transformations that have been accounted for by simple models involving different ablation, melting, diffusion, and segregation/agglomeration phenomena depending on the laser treatments employed