Estructuras de hormigón sometidas a deformaciones impuestas

En este trabajo se estudia el comportamiento de elementos de hormigón estructural sometidos a deformaciones impuestas, en donde la fisuración se produce, general y fundamentalmente, en secciones en las que los esfuerzos, y por tanto las fisuras, debidos a las acciones exteriores son inexistentes o prácticamente inexistentes. Se estudia la fisuración producida, a edades tempranas, por las deformaciones debidas al calor de fraguado y la retracción autógena y a lo largo de la vida útil de la estructura, por los fenómenos reológicos del hormigón y la variación de temperatura. Se han estudiado los resultados experimentales disponibles. Se ha identificado un programa de elementos finitos, ATENA, que permite el estudio de fenómenos no lineales, especialmente la fisuración. Se ha contrastado este programa de forma detallada con los resultados experimentales disponibles. Se han estudiado las fuentes de deformaciones impuestas para su caracterización: calor de hidratación, fenómenos reológicos del hormigón y variaciones de temperaturas. Se han estudiado la evolución de las características mecánicas y de conductividad térmica del hormigón a lo largo del tiempo y especialmente a edades tempranas. Se han estudiado las evidencias experimentales disponibles y las estimaciones teóricas propuestas. Se han estudiado las recomendaciones de la CIRIA 660, que es el documento de referencia para tener en cuenta, desde el punto de vista del proyecto este tipo de fenómenos. Con el programa ATENA se han estudiado distintos ejemplos. El objetivo principal ha sido, por un lado, entender el fenómeno y, por otro, contrastar los criterios expuestos en la CIRA 660. This document studies the behavior of structural reinforced concrete structures subjected to imposed deformations, where the cracking occurs, mostly, in sections where the stresses, and thus cracks, due to the exterior actions are none-existent or practically zero. Early age cracking produced by the imposed deformations, due to heat of hydration and autogenous shrinkage, and long term effects, due to the drying shrinkage and the thermal variation, is studied. Available experimental results have been studied. A finite element program has been identified, ATENA, which allows the study of non-lineal phenomena, especially cracking. This software has been contrasted with the available experimental results. The imposed deformation sources have been studied for its characteristically sources: heat of hydration, concrete shrinkage and thermal variation. Also the evolution of the mechanical properties and the thermal conductivity of concrete in time and especially at early age have also been studied. The available experimental evidence and the proposal theoretical estimates have been studied. CIRIA 660 recommendations have been studied, which is the reference document to take into account, form the design point of view, this kind of phenomena. With the ATENA software different examples have been studied. On the one hand the main objective has been to understand the phenomena and, on the other, to contrast the CIRIA 660 proposal.

Estudio y análisis de la retracción de hormigones normales mediante una base de datos de ensayos unificada

El presente trabajo de investigación se plantea el estudio del fenómeno de la retracción. El fenómeno de la retracción, al igual que otras propiedades del hormigón, ha sido ampliamente divulgado, pero de un tiempo a esta parte, debido a la aparición de nuevos tipos de hormigones (autocompactantes, de altas resistencias, reciclados, etc.) se ha dejado en un segundo plano. Este segundo plano no significa que haya pasado al olvido, pues en los “nuevos hormigones” se toman los modelos de estimación de los hormigones normales como base para estimar sus propiedades, siendo, por este motivo, muy necesario reflexionar sobre si los modelos que estamos empleando son apropiados o no lo son. Este trabajo pretende, mediante la confección de una base de datos que unifica y amplía la del profesor Bazant, realizar un análisis estadístico de los datos que actualmente tenemos a nuestra disposición, y que conforman un total de 802 ensayos que abarcan desde el fenómeno el entumecimiento hasta la retracción total, pasando por la retracción autógena, con un intervalo de tiempo que abarca desde 1958 hasta 2013. Además, este trabajo realiza una revisión de los siete modelos de cálculo más empleados a la hora de estimar la deformación por retracción, analizándolos minuciosamente y superponiéndolos con los datos reales de la base anteriormente nombrada. Como conclusión, se demuestra que los modelos estudiados estiman razonablemente bien el fenómeno de la retracción, si bien no se llegan a discriminar todas las variables con la precisión esperada, siendo alguno de ellos conservador. En este sentido, se abre la puerta a insistir en un estudio más afinado de la retracción del hormigón, por dos motivos: los actuales modelos sirven de base para la estimación de los anteriormente mencionados nuevos hormigones y porque la introducción y desarrollo de aditivos que sean capaces de disminuir este fenómeno deben asentarse ambos sobre una base más sólida y precisa. Por último, deja la puerta abierta para que otros trabajos de investigación puedan realizarse, bien con la retracción, bien con otras propiedades, como el módulo de deformación, la adquisición de resistencias, etc., pues se adjunta como anexo toda la base completa con más de 20.000 datos que pueden ser de gran utilidad. The main objective of this research study is to evaluate the phenomenon of shrinkage in concrete. The phenomenon of shrinkage, as well as other properties of concrete, has been widely studied, but for a time, and due to the emergence of new types of concrete (self-compacting, high strength, recycled, etc.) it has been left in the background. Having moved to second plane did not mean that it have been abandoned, since in the "new concrete" these properties are calculated using the estimation models developed for conventional concrete, and it is for this reason, why it is important and necessary to reflect whether these models we are using are appropriate or are not. This work seeks to unify and bring up-to-date a database of experimental shrinkage results. The database is based on existing databases, especially on the last version of the database created by Professor Bazant. The database includes a total of 802 experimental results, and include results for total shrinkage, autogenous shrinkage and swelling, and over experimental studies for 1958 to 2013. The database serves as a basis for a complex and detailed statistical analysis of the data. In addition, seven commonly used shrinkage estimation models are presented and evaluated. These models are used for a thoroughly comparison analysis between the estimated results obtained using these models and the actual experimental data included in the unified database. In conclusion, it is shown that the models estimate reasonably well the shrinkage strains, although they fail to discriminate adequately some of the influencing variables, resulting in some of them being too conservative in their estimation. In this sense, the results of this work emphasis the importance and the need of addition research on the shrinkage of concrete. This is especially important considering that the existing models provide a basis for estimating the shrinkage in "new concretes", and that the increase use of shrinkage reducing additives should be based and supported by solid research in this field. Finally, this study includes an extensive and updated database that can serve for further research on shrinkage. The full database, developed as part of this work, which includes more than 20,000 data, is included in the annex of the study.

Mapping urban shrinkage in Europe. Training School Final Report. EU-COST Action TU0803

In the context of the European COST Action ‘Cities Regrowing Smaller’ (CIRES) a training was held in Dortmund, Germany from November 14th to 18th in 2011. The training school ‘Mapping Urban Shrinkage’ aimed to get young researchers and scholars from different European countries together to deal with questions of how to measure and illustrate shrinkage

Lazy Lasso for local regression

Locally weighted regression is a technique that predicts the response for new data items from their neighbors in the training data set, where closer data items are assigned higher weights in the prediction. However, the original method may suffer from overfitting and fail to select the relevant variables. In this paper we propose combining a regularization approach with locally weighted regression to achieve sparse models. Specifically, the lasso is a shrinkage and selection method for linear regression. We present an algorithm that embeds lasso in an iterative procedure that alternatively computes weights and performs lasso-wise regression. The algorithm is tested on three synthetic scenarios and two real data sets. Results show that the proposed method outperforms linear and local models for several kinds of scenarios

Optimización granulométrica de morteros de base cemento

En la práctica habitual, para la elaboración de morteros se recomienda la utilización de granulometrías continuas. El requisito de continuidad y que los tamaños de partícula se encuentren dentro de los límites establecidos por “husos granulométricos” surge de las teorías clásicas de Fuller – Thompson y se apoya en la necesidad de obtener mezclas con adecuada docilidad en el estado fresco. Sin embargo, las distribuciones continuas de árido no representan las únicas alternativas para obtener mezclas que tengan una adecuada docilidad en estado fresco y mediante nuevos criterios de interferencia de partículas es posible demostrar que las distribuciones discontinuas aun siendo más compactas y con menor requerimientos de volumen de pasta pueden ser igual de dóciles en estado fresco. Aunque el volumen mínimo de pasta está condicionado por su fluidez y viscosidad estos parámetros pueden modificarse mediante la incorporación de filler de distinta naturaleza y aditivos químicos de reciente desarrollo. En consecuencia, se propone analizar la posibilidad de minimizar el contenido de pasta de morteros de base cemento, manteniendo las prestaciones en el estado fresco, con el objetivo de obtener una mejor estabilidad volumétrica, posibilitando mejor control de la retracción y de la fisuración. Para ello se emplearán criterios de interferencia de partículas, combinados con el uso de filler de distinta naturaleza La reducción del contenido de pasta conducirá también a mejorar el perfil sostenible de los morteros. El proceso de optimización tiene una base racional y, por lo tanto, será aplicable a distintos tipos de mortero, y las proporciones óptimas podrán adecuarse según las prestaciones requeridas para el material. SUMMARY In common practice, continuous sand gradings are recommended to produce ordinary mortars. This requirement, along with grading limits are based on classical theories, such as Fuller, aimed at achieving a reasonable packing density without compromising workability at the fresh state. Nevertheless, there are other alternatives, such as discontinuous curves based on particle interference criteria, which are capable of having even higher packing density. The less the content of voids in the granular skeleton, the less the amount of cement paste required to fill in these voids and coating the particles. Yet, the minimum volume of paste in a mortar is determined by requirements associated to the fresh state and thus, fluidity and viscosity of the paste play a significant role on the matter. These two properties can be modified by the use of suitable fillers and by the use of last-generation chemical admixtures. As a result, it is proposed to analyse the possibility of combining current particle interference criteria with the use of different types of filler and chemical admixtures to optimise cement-based mortar formulations. This optimisation is aimed at reducing the paste content while maintaining a suitable performance at the fresh state. The reduction in paste content would lead to a better dimensional stability, with better control of shrinkage and cracking behaviour. The foreseen optimisation process will have a strong rational basis and thus, it should be potentially useful to optimise mortar proportions according to a performance-based approach.

Futuros urbanos: la reversibilidad del proceso de deterioro

Las dinámicas de reorganización de la producción y las transformaciones económicas determinaron la crisis de gran parte de las regiones industriales de Europa y Estados Unidos en las últimas décadas del siglo XX. Ante la persistencia e intensidad del declive de muchas de ellas, cabe preguntarse, ¿existen futuros para la ciudad industrial? O, en otras palabras, ¿es el declive un proceso irreversible? La incidencia dispar del declive así como la gradual regeneración de algunas regiones industriales en los últimos años parece apuntar hacia cierta capacidad de respuesta local ante unas dinámicas de escala global. Las múltiples trayectorias de las regiones de base industrial tan sólo parecen poder explicarse desde su singularidad. La presente tesis doctoral tiene por objeto analizar las posibilidades de orientar los procesos de deterioro urbano de las regiones industriales y examinar la capacidad de la planificación de intervenir sobre ellos a través de dos estudios de caso, El modo de abordar el análisis, estudiar la ciudad en evolución, debería proporcionar una mejor comprensión de las repercusiones del modelo de crecimiento de cada ciudad sobre su posterior declive y resaltar la influencia de las decisiones políticas y espaciales de cada etapa en el desarrollo futuro del territorio. Analizar la evolución de dos regiones industriales extremadamente diferentes dará la oportunidad de investigar, en primer lugar, uno de los casos paradigmáticos de deterioro urbano, Detroit y, tras haberse interrogado sobre las causas específicas de la persistencia y duración de su declive, estudiar la evolución urbana de la región de Nantes – Saint-Nazaire para comprender la singularidad de su regeneración tras años de estancamiento. El análisis de estos territorios debería permitir progresar en el conocimiento de los procesos de declive, comparar las diferentes estrategias y modelos urbanos, comprender las diferencias entre ellos e interrogarnos sobre la posibilidad de orientar los procesos de deterioro urbano. Las respuestas de este análisis quizás nos ayuden a afirmar la existencia de futuros múltiples para la ciudad industrial. Global dynamics such as economic transformations and reorganizations of production led to the crisis of most industrial cities in Europe and the U.S in the last decades of the 20th century. Most of them have suffered or are still suffering the consequences of urban decay and shrinkage. Given the severity and persistence of some of these processes, a significant question may be raised: are there alternative futures for former industrial cities? Or is urban decay an irreversible process? Nevertheless, the diverse evolution of these cities, as well as the gradual restructuring of some of them in recent years, seem to point toward the relevance of local response to these global dynamics. The different paths of development of industrial cities since 1970s may only be explained by their singularity and specific local conditions. This research aims to examine possibilities to guide urban decline and shrinkage in former industrial regions and to analyze the ability of urban planning to intervene in these processes through two case studies. The method of research, exploring cities in evolution, should provide a greater understanding of the effects of different modes of development during the city’s heyday on its subsequent shrinkage. Likewise, it should highlight the influence of each period’s local decisions on the future trajectory of the city. The evolutive analysis of two extremely different industrial regions will give us, first, the opportunity to study a paradigm of urban decay, Detroit, by exploring over time the specific causes of its decline’s prevalence. In the second place, we will be able to study Nantes - Saint-Nazaire region, examining the distinctiveness of its recent restructuring after years of shrinkage and stagnation. Through these examples, we would be able to analyze the consequences of decision-making on the evolution of each city. It should also let us compare diverse strategies and enable us to question the ability of planning to tackle decay. The conclusions of the analysis may help us to assert the existence of alternative futures for industrial cities.

Investigation of AlInN barrier ISFET structures with GaN capping for pH detection

The pH response of GaN/AlInN/AlN/GaN ion-sensitive field effect transistor (ISFET) on Si substrates has been characterized. We analyzed the variation of the surface potential (ΔVsp/ΔpH) and current (ΔIds/ΔpH) with solution pH in devices with the same indium content (17%, in-plane lattice-matched to GaN) and different AlInN thickness (6 nm and 10 nm), and compared with the literature. The shrinkage of the barrier, that has the effect to increase the transconductance of the device, makes the 2-dimensional electron density (2DEG) at the interface very sensitive to changes in the surface. Although the surface potential sensitivity to pH is similar in the two devices, the current change with pH (ΔIds/ΔpH), when biasing the ISFET by a Ag/AgCl reference electrode, is almost 50% higher in the device with 6 nm AlInN barrier, compared to the device with 10 nm barrier. When measuring the current response (ΔIds/ΔpH) without reference electrode, the device with thinner AlInN layer has a larger response than the thicker one, of a factor of 140%, and that current response without reference electrode is only 22% lower than its maximum response obtained using reference electrode.

Estudio del comportamiento del hormigón de alta resistencia reforzado con fibras de acero frente al impacto de proyectiles

En la presente investigación se buscó estudiar el efecto de la adición de fibras metálicas como refuerzo en hormigones de alta resistencia, y en especial su comportamiento frente al impacto de proyectiles. Se efectuó el estudio sobre un hormigón de alta resistencia (HAR), analizando los aspectos mecánicos, durabilidad y trabajabilidad para su colocación en obra. Las pruebas de laboratorio se llevaron a cabo en el Laboratorio de Materiales de Construcción de la Escuela Técnica Superior de Caminos Canales y Puertos de la UPM y los ensayos balísticos en la galería de tiro cubierta del Polígono de Experiencia de Carabanchel, adscrito a la Dirección General de Infraestructura del Ministerio de la Defensa. La caracterización del HAR empleado en el estudio se centró en los aspectos de resistencias mecánicas a compresión, tracción, flexotracción, tenacidad a flexotracción, punzonamiento, retracción, fluencia, temperatura interna y resistencia al impacto de proyectiles, siempre buscando de manera primordial analizar el efecto de la adición de fibras en el hormigón de alta resistencia. El programa de ensayos balísticos comprendió la fabricación de 47 placas de hormigón de diferentes espesores, desde 5 a 40 cm., 26 de dichas placas eran de HAR con una adición de fibras metálicas de 80 kg/m3, 11 de ellas eran de HAR sin fibras y 10 de un hormigón de resistencia convencional con y sin fibras; sobre dichas placas se efectuaron diversos impactos con proyectiles de los cuatro calibres siguientes: 7.62 AP, 12.70 M8, 20 mm APDS y 25 mm APDS. Las pruebas mostraron que el HAR presenta una mayor resistencia a los impactos de proyectiles, aunque sin la adición de fibras su fragilidad es un serio inconveniente para su utilización como barrera protectora, la adición de fibras reduce considerablemente la fragmentación en la cara posterior “scabbing” y en menor medida en la cara anterior “spalling”. También se incrementa la capacidad del hormigón a la resistencia de múltiples impactos. Se efectuó un estudio de las diferentes formulas y modelos, en especial el modelo desarrollado por Moreno [60], que se vienen utilizando para el diseño de barreras protectoras de hormigón contra impacto de proyectiles, analizando su viabilidad en el caso del hormigón de alta resistencia, hormigón para el cual no fueron desarrolladas y para el que no existen bases de cálculo específicas. In this research we have tried to study the effect of adding metallic fibres as a means of reinforcing high strength concrete, and especially its behaviour when impacted upon by projectiles. The study was carried out using high strength concrete (HSC), analysing its mechanical facets, durability and malleability when used in construction. The laboratory tests took place in the Laboratorio de Materiales de Construcción of the Escuela Técnica Superior de Caminos Canales y Puertos of the Universidad Politécnica de Madrid, and the ballistic tests were carried out in the covered shooting gallery of the Polígono de Experiencias in Carabanchel (Madrid), belongs to the Departamento de Infraestructura of the Ministerio de Defensa. The aspects of the HSC studied are its mechanical strength to compression, traction, flexotraction, resilience to flexo-traction, shear strength, creep, shrinkage, internal temperature and strength to the impact of projectiles, always looking to analyse the effect of adding fibres to HSC. The ballistic testing process required the construction of 47 concrete plates of different thicknesses, from 5 to 40 cm, 26 made which HSC containing of 80 kg/m3 metallic fibres of, 11 made of HSC without fibres, and 10 made with concrete of normal strength with and without fibres. These plates were subjected to a variety of impacts by four projectile, 7.62 AP, 12.70 M8, 20 mm APDS and 25 mm APDS. The results showed that HSC has a greater resistance to the impact of projectiles, although without the addition of fibres, its fragility makes it much less suitable for use as a protective barrier. The addition of fibres reduces considerably frontal fragmentation, known as “scabbing”, and to a lesser extent causes fragmentation of the reverse side, known as “spalling”. In addition, the concrete’s capacity to resist multiple impacts is improved by its letter ductility. A study was carried out on the various formulae and models used to design protective concrete barriers impacted on by projectiles, analysing their viability in the case of HSC for which they were not developed and for which no specific calculations exist.

Imposed Deformations Measured on a Real Integral Structure: New Airport Terminal Barajas, Madrid, Spain

Experimental research on imposed deformation is generally conducted on small scale laboratory experiments. The attractiveness of field research lies in the possibility to compare results obtained from full scale structures to theoretical prediction. Unfortunately, measurements obtained from real structures are rarely described in literature. The structural response of integral edifices depends significantly on stiffness changes and constraints. The New Airport Terminal Barajas in Madrid, Spain provides with large integral modules, partially post?tensioned concrete frames, cast monolithically over three floor levels and an overall length of approx. 80 m. The field campaign described in this article explains the instrumentation of one of these frames focusing on the influence of imposed deformations such as creep, shrinkage and temperature. The applied monitoring equipment included embedded strain gages, thermocouples, DEMEC measurements and simple displacement measurements. Data was collected throughout construction and during two years of service. A complete data range of five years is presented and analysed. The results are compared with a simple approach to predict the long?term shortening of this concrete structure. Both analytical and experimental results are discussed.

Desarrollo y caracterización de un material celular de alta porosidad con base cementicia activada mediante agentes inorgánicos

Esta tesis ha estudiado los morteros celulares, centrándose en la experimentación con pastas de cemento aireadas (PCA) con polvo de aluminio como agente expansor. El objetivo es el desarrollo de un material cementicio con una baja conductividad térmica que sirva como aislamiento térmico. La naturaleza inorgánica del material lo hace incombustible, en contraste con las espumas poliméricas existentes en el mercado, cuya aplicación en cámaras ventiladas ha sido prohibida por normativas de construcción tanto a nivel nacional como internacional. Las posibles aplicaciones son con proyección neumática o en paneles prefabricados. Se han ensayado dos series de pastas de cemento con polvo de aluminio: - Serie WPC/CAC/CH. Mezcla de referencia con cemento blanco (WPC), cemento de aluminato cálcico (CAC) y cal aérea (CH) en proporción 5:1:4. - Serie OPC/CH. Mezcla de referencia con cemento portland con cenizas volantes (OPC) y cal aérea (CH) en proporción OPC/CH de 4:1 A las mezclas de referencia se le han añadido adiciones de metacaolín (MK) (10 y 20%) o sepiolita (SP) (1 y 2%) para observar el efecto que producen tanto en el mortero fresco como en el mortero endurecido. Se ha estudiado la reología de las pastas en estado fresco, analizando el proceso de expansión de las pastas, registrando los valores de tensión de fluencia, aire ocluido y temperatura durante la expansión. Con los valores obtenidos se ha discutido la influencia de las adiciones utilizadas en la cinética de corrosión del polvo de aluminio que genera la expansión, concluyendo que las adiciones puzolánicas (CV y MK) y la SP reducen mucho el periodo de inducción, lo que provoca poros más grandes y mayor cantidad de aire ocluido. Asimismo se ha analizado la relación entre la tensión de fluencia y el contenido de aire ocluido, deduciendo que a mayor tensión de fluencia en el momento de iniciarse la expansión, menor tamaño de poros y contenido de aire ocluido. Finalmente, se han obtenido las densidades y capacidades de retención de agua de los morteros frescos. Para caracterizar la red porosa de las pastas aireadas endurecidas, se obtuvieron tanto las densidades reales, netas, aparentes y relativas como las porosidades abiertas, cerradas y totales con ensayos hídricos. Finalmente se obtuvieron imágenes de los poros con tomografía axial computerizada para obtener las porosimetrías de las muestras. La caracterización de la red porosa ha servido para terminar de analizar lo observado en la evolución de la expansión del mortero fresco. Se ha analizado la influencia de la red porosa en la conductividad térmica, obtenida con caja caliente, comparándola con la existente en la literatura existente tanto de morteros celulares como de espumas poliméricas. Se concluye que los valores de conductividad térmica conseguida están en el mínimo posible para un material celular de base cementicia. La microestructura se ha estudiado con microscopía electrónica de barrido, difracción de rayos X y ensayos térmicos TG/ATD, observando que los productos de hidratación encontrados coinciden con los que se producen en morteros sin airear. Las imágenes SEM y los resultados de ultrasonidos han servido para analizar la presencia de microfisuras de retracción en las pastas aireadas, observando que en las muestras con adiciones de MK y SP, se reduce la presencia de microfisuras. ABSTRACT This thesis has studied cellular mortars, focusing in testing aerated cement pastes with aluminum powder as expansive agent. The purpose is the development of a cementitious material with low thermal conductivity that can be used as thermal isolation. Inorganic nature of this material makes it non-combustible, in contrast with polymeric foams in market, whose application in ventilated double skin façade systems has been banned by building standards, both domestically and internationally. Possible uses for this material are pneumatically sprayed applications and precast panels. Two series of batches with aluminum powder have been tested: - WPC/CAC/CH series. Reference paste with white portland cement (WPC), calcium aluminate cement (CAC) and lime (CH) with 5:1:4 ratio. - OPC/CH series. Reference paste with portland cement with fly ash (OPC) and lime (CH) with 4:1 ratio. Metakaolin (MK) (10 and 20%) or sepiolite (SP) (1 and 2%) additions were used in reference pastes to characterize the effect in fresh and hardened mortar. Rheology in fresh pastes was studied, expansion process of pastes was analyzed, recording yield stress, entrained air and temperature values during expansion. Recorded values were used to discuss influence of additions on reaction kinetics of aluminum powder corrosion, that produces expansion.. Conclusion is that pozzolanic additions (FA and MK) and SP greatly reduce induction period, producing bigger pores and more entrained air. Relation between yield stress and entrained air has been also analyzed, observing that the bigger yield stress at beginning of expansion, the smaller pores size and the lower entrained air values. Finally density and water retention of fresh mortars were obtained. Pore network in hardened aerated cement pastes was characterized by imbibition methods providing true, bulk and relative density, and providing also open, closed and total porosity. Finally, pore system imaging were obtained with computerized axial tomography to study porosimetry of specimens. Pore network characterization was useful to complete facts analysis observed in expansion of fresh mortars. Influence of pore network in thermal conductivity, checked in hot box, was analyzed comparing with those existing values in cellular mortar and polymeric foams researches. It was concluded that thermal conductivity values achieved are close to minimum possible in a cementitious cellular material. Microstructure was studied with Scanning Electron Microscopy, X-Ray Diffractometry and TG-DTA analysis, observing that hydration phases found, are those produced in non aerated mortar. SEM imaging and ultrasound results were useful to analyze shrinkage microcracks in aerated cement pastes, concluding that microcrack presence in specimens with MK and SP additions were reduced.

Crack width control in RC elements with recycled steel fibres and applications to integral structures : theoretical and experimental study

El presente trabajo trata de elementos reforzados con barras de armadura y Fibras Metálicas Recicladas (FMR). El objetivo principal es mejorar el comportamiento a fisuración de elementos sometidos a flexión pura y a flexión compuesta, aumentando en consecuencia las prestaciones en servicio de aquellas estructuras con requerimientos estrictos con respecto al control de fisuración. Entre éstas últimas se encuentran las estructuras integrales, es decir aquellas estructuras sin juntas (puentes o edificios), sometidas a cargas gravitatorias y deformaciones impuestas en los elementos horizontales debidas a retracción, fluencia y temperatura. Las FMR son obtenidas a partir de los neumáticos fuera de uso, y puesto que el procedimiento de reciclado se centra en el caucho en vez que en el acero, su forma es aleatoria y con longitud variable. A pesar de que la eficacia del fibrorefuerzo mediante FMR ha sido demostrada en investigaciones anteriores, la innovación que representa este trabajo consiste en proponer la acción combinada de barras convencionales y FMR en la mejora del comportamiento a fisuración. El objetivo es por tanto mejorar la sostenibilidad del proyecto de la estructura en HA al utilizar materiales reciclados por un lado, y aumentando por el otro la durabilidad. En primer lugar, se presenta el estado del arte con respecto a la fisuración en elementos de HA, que sucesivamente se amplía a elementos reforzados con barras y fibras. Asimismo, se resume el método simplificado para el análisis de columnas de estructuras sin juntas ya propuesto por Pérez et al., con particular énfasis en aquellos aspectos que son incompatibles con la acción de las fibras a nivel seccional. A continuación, se presenta un modelo para describir la deformabilidad seccional y la fisuración en elementos en HA, que luego se amplía a aquellos elementos reforzados con barras y fibras, teniendo en cuenta también los efectos debidos a la retracción (tension stiffening negativo). El modelo es luego empleado para ampliar el método simplificado para el análisis de columnas. La aportación consiste por tanto en contar con una metodología amplia de análisis para este tipo de elementos. Seguidamente, se presenta la campaña experimental preliminar que ha involucrado vigas a escala reducida sometidas a flexión simple, con el objetivo de validar la eficiencia y la usabilidad en el hormigón de las FMR de dos diferentes tipos, y su comportamiento con respecto a fibras de acero comerciales. Se describe a continuación la campaña principal, consistente en ensayos sobre ocho vigas en flexión simple a escala 1:1 (variando contenido en FRM, Ø/s,eff y recubrimiento) y doce columnas a flexión compuesta (variando contenido en FMR, Ø/s,eff y nivel de fuerza axil). Los resultados obtenidos en la campaña principal son presentados y comentados, resaltando las mejoras obtenidas en el comportamiento a fisuración de las vigas y columnas, y la rigidez estructural de las columnas. Estos resultados se comparan con las predicciones del modelo propuesto. Los principales parámetros estudiados para describir la fisuración y el comportamiento seccional de las vigas son: la separación entre fisuras, el alargamiento medio de las armaduras y la abertura de fisura, mientras que en los ensayos de las columnas se ha contrastado las leyes momento/curvatura, la tensión en las barras de armadura y la abertura de fisura en el empotramiento en la base. La comparación muestra un buen acuerdo entre las predicciones y los resultados experimentales. Asimismo, se nota la mejora en el comportamiento a fisuración debido a la incorporación de FMR en aquellos elementos con cuantías de armadura bajas en flexión simple, en elementos con axiles bajos y para el control de la fisuración en elementos con grandes recubrimientos, siendo por tanto resultados de inmediato impacto en la práctica ingenieril (diseño de losas, tanques, estructuras integrales, etc.). VIIIComo punto final, se presentan aplicaciones de las FMR en estructuras reales. Se discuten dos casos de elementos sometidos a flexión pura, en particular una viga simplemente apoyada y un tanque para el tratamiento de agua. En ambos casos la adicción de FMR al hormigón lleva a mejoras en el comportamiento a fisuración. Luego, utilizando el método simplificado para el análisis en servicio de columnas de estructuras sin juntas, se calcula la máxima longitud admisible en casos típicos de puentes y edificación. En particular, se demuestra que las limitaciones de la práctica ingenieril actual (sobre todo en edificación) pueden ser aumentadas considerando el comportamiento real de las columnas en HA. Finalmente, los mismos casos son modificados para considerar el uso de MFR, y se presentan las mejoras tanto en la máxima longitud admisible como en la abertura de fisura para una longitud y deformación impuesta. This work deals with elements reinforced with both rebars and Recycled Steel Fibres (RSFs). Its main objective is to improve cracking behaviour of elements subjected to pure bending and bending and axial force, resulting in better serviceability conditions for these structures demanding keen crack width control. Among these structures a particularly interesting type are the so-called integral structures, i.e. long jointless structures (bridges and buildings) subjected to gravitational loads and imposed deformations due to shrinkage, creep and temperature. RSFs are obtained from End of Life Tyres, and due to the recycling process that is focused on the rubber rather than on the steel they come out crooked and with variable length. Although the effectiveness of RSFs had already been proven by previous research, the innovation of this work consists in the proposing the combined action of conventional rebars and RSFs to improve cracking behaviour. Therefore, the objective is to improve the sustainability of RC structures by, on the one hand, using recycled materials, and on the other improving their durability. A state of the art on cracking in RC elements is firstly drawn. It is then expanded to elements reinforced with both rebars and fibres (R/FRC elements). Finally, the simplified method for analysis of columns of long jointless structures already proposed by Pérez et al. is resumed, with a special focus on the points that conflict when taking into account the action of fibres. Afterwards, a model to describe sectional deformability and cracking of R/FRC elements is presented, taking also into account the effect of shrinkage (negative tension stiffening). The model is then used to implement the simplified method for columns. The novelty represented by this is that a comprehensive methodology to analyse this type of elements is presented. A preliminary experimental campaign consisting in small beams subjected to pure bending is described, with the objective of validating the effectiveness and usability in concrete of RSFs of two different types, and their behaviour when compared with commercial steel fibres. With the results and lessons learnt from this campaign in mind, the main experimental campaign is then described, consisting in cracking tests of eight unscaled beams in pure bending (varying RSF content, Ø/s,eff and concrete cover) and twelve columns subjected to imposed displacement and axial force (varying RSF content, Ø/s,eff and squashing load ratio). The results obtained from the main campaign are presented and discussed, with particular focus on the improvement in cracking behaviour for the beams and columns, and structural stiffness for the columns. They are then compared with the proposed model. The main parameters studied to describe cracking and sectional behaviours of the beam tests are crack spacing, mean steel strain and crack width, while for the column tests these were moment/curvature, stress in rebars and crack with at column embedment. The comparison showed satisfactory agreement between experimental results and model predictions. Moreover, it is pointed out the improvement in cracking behaviour due to the addition of RSF for elements with low reinforcement ratios, elements with low squashing load ratios and for crack width control of elements with large concrete covers, thus representing results with a immediate impact in engineering practice (slab design, tanks, integral structures, etc.). Applications of RSF to actual structures are finally presented. Two cases of elements in pure bending are presented, namely a simple supported beam and a water treatment tank. In both cases the addition of RSF to concrete leads to improvements in cracking behaviour. Then, using the simplified model for the serviceability analysis of columns of jointless structures, the maximum achievable jointless length of typical cases of a bridge and building is obtained. In XIIparticular, it is shown how the limitations of current engineering practice (this is especially the case of buildings) can be increased by considering the actual behaviour of RC supports. Then, the same cases are modified considering the use of RSF, and the improvements both in maximum achievable length and in crack width for a given length and imposed strain at the deck/first floor are shown.

Variation throughout the tree stem in the physical-mechanical properties of the wood of Abies alba Mill. from the Spanish Pyrenees

This study analyses the variation of main physical-mechanical properties of wood along the longitudinal and radial directions of the tree for Abies alba Mill. growing in the Spanish Pyrenees. Small clear specimens were used to study the properties of volumetric shrinkage (VS), density (?), hardness (H), bending strength (MOR), modulus of elasticity (MOE), maximum compressive strength parallel to the grain (MCS) and impact strength (K). Several models of properties variation in the longitudinal and radial directions were analyzed. Main trends of variation of properties throughout the tree stem were identified although none of them could be fitted to predictive statistical models. Along the longitudinal direction, the properties studied followed a downward trend from the base to the crown, which was not significant in all cases, indicating that no differences in quality existed. Throughout the radial direction the trend is upward for the first 40-50 growth rings, after which it slopes downwards, more gently at first until rings 70-75 and then more steeply. This behaviour is related to variation in wood structure from the pith to the bark, depending on whether the wood is juvenile, sapwood or heartwood, and to wood maturity and microfibril angle. Authors encourage carrying further studies on other populations of A. alba in the Spanish Pyrenees to check if the trends found in this study apply to other provenances.

Residual stress distribution in ferritic to austenitic steel joints made by laser welding,

In this study, autogenous laser welding was used to join thin plates of low carbon ferritic and austenitic stainless steel. Due to the differences in the thermo-physical properties of base metals, this kind of weld exhibits a complex microstructure, which frequently leads to an overall loss of joint quality. Four welded samples were prepared by using different sets of processing parameters, with the aim of minimizing the induced residual stress field. The dissimilar austenitic-ferritic joints obtained under all welding conditions were uniform and free of defects. Variations in beam position did not influence the weld geometiy, which is a typical keyhole welding. Microstructural characterization and residual strain scanning (by neutron diffraction) were used to assess the features of the joints. By varying laser beam power density and by displacing the laser beam towards the carbon steel side, an optimum combination of processing parameters was found.

Continuum models of the mechanical behavior of rolled and die-cast magnesium alloys

En los últimos años ha habido una fuerte tendencia a disminuir las emisiones de CO2 y su negativo impacto medioambiental. En la industria del transporte, reducir el peso de los vehículos aparece como la mejor opción para alcanzar este objetivo. Las aleaciones de Mg constituyen un material con gran potencial para el ahorro de peso. Durante la última década se han realizado muchos esfuerzos encaminados a entender los mecanismos de deformación que gobiernan la plasticidad de estos materiales y así, las aleaciones de Mg de colada inyectadas a alta presión y forjadas son todavía objeto de intensas campañas de investigación. Es ahora necesario desarrollar modelos que contemplen la complejidad inherente de los procesos de deformación de éstos. Esta tesis doctoral constituye un intento de entender mejor la relación entre la microestructura y el comportamiento mecánico de aleaciones de Mg, y dará como resultado modelos de policristales capaces de predecir propiedades macro- y microscópicas. La deformación plástica de las aleaciones de Mg está gobernada por una combinación de mecanismos de deformación característicos de la estructura cristalina hexagonal, que incluye el deslizamiento cristalográfico en planos basales, prismáticos y piramidales, así como el maclado. Las aleaciones de Mg de forja presentan texturas fuertes y por tanto los mecanismos de deformación activos dependen de la orientación de la carga aplicada. En este trabajo se ha desarrollado un modelo de plasticidad cristalina por elementos finitos con el objetivo de entender el comportamiento macro- y micromecánico de la aleación de Mg laminada AZ31 (Mg-3wt.%Al-1wt.%Zn). Este modelo, que incorpora el maclado y tiene en cuenta el endurecimiento por deformación debido a las interacciones dislocación-dislocación, dislocación-macla y macla-macla, predice exitosamente las actividades de los distintos mecanismos de deformación y la evolución de la textura con la deformación. Además, se ha llevado a cabo un estudio que combina difracción de electrones retrodispersados en tres dimensiones y modelización para investigar el efecto de los límites de grano en la propagación del maclado en el mismo material. Ambos, experimentos y simulaciones, confirman que el ángulo de desorientación tiene una influencia decisiva en la propagación del maclado. Se ha observado que los efectos no-Schmid, esto es, eventos de deformación plástica que no cumplen la ley de Schmid con respecto a la carga aplicada, no tienen lugar en la vecindad de los límites de baja desorientación y se hacen más frecuentes a medida que la desorientación aumenta. Esta investigación también prueba que la morfología de las maclas está altamente influenciada por su factor de Schmid. Es conocido que los procesos de colada suelen dar lugar a la formación de microestructuras con una microporosidad elevada, lo cuál afecta negativamente a sus propiedades mecánicas. La aplicación de presión hidrostática después de la colada puede reducir la porosidad y mejorar las propiedades aunque es poco conocido su efecto en el tamaño y morfología de los poros. En este trabajo se ha utilizado un enfoque mixto experimentalcomputacional, basado en tomografía de rayos X, análisis de imagen y análisis por elementos finitos, para la determinación de la distribución tridimensional (3D) de la porosidad y de la evolución de ésta con la presión hidrostática en la aleación de Mg AZ91 (Mg- 9wt.%Al-1wt.%Zn) colada por inyección a alta presión. La distribución real de los poros en 3D obtenida por tomografía se utilizó como input para las simulaciones por elementos finitos. Los resultados revelan que la aplicación de presión tiene una influencia significativa tanto en el cambio de volumen como en el cambio de forma de los poros que han sido cuantificados con precisión. Se ha observado que la reducción del tamaño de éstos está íntimamente ligada con su volumen inicial. En conclusión, el modelo de plasticidad cristalina propuesto en este trabajo describe con éxito los mecanismos intrínsecos de la deformación de las aleaciones de Mg a escalas meso- y microscópica. Más especificamente, es capaz de capturar las activadades del deslizamiento cristalográfico y maclado, sus interacciones, así como los efectos en la porosidad derivados de los procesos de colada. ---ABSTRACT--- The last few years have seen a growing effort to reduce CO2 emissions and their negative environmental impact. In the transport industry more specifically, vehicle weight reduction appears as the most straightforward option to achieve this objective. To this end, Mg alloys constitute a significant weight saving material alternative. Many efforts have been devoted over the last decade to understand the main mechanisms governing the plasticity of these materials and, despite being already widely used, high pressure die-casting and wrought Mg alloys are still the subject of intense research campaigns. Developing models that can contemplate the complexity inherent to the deformation of Mg alloys is now timely. This PhD thesis constitutes an attempt to better understand the relationship between the microstructure and the mechanical behavior of Mg alloys, as it will result in the design of polycrystalline models that successfully predict macro- and microscopic properties. Plastic deformation of Mg alloys is driven by a combination of deformation mechanisms specific to their hexagonal crystal structure, namely, basal, prismatic and pyramidal dislocation slip as well as twinning. Wrought Mg alloys present strong textures and thus specific deformation mechanisms are preferentially activated depending on the orientation of the applied load. In this work a crystal plasticity finite element model has been developed in order to understand the macro- and micromechanical behavior of a rolled Mg AZ31 alloy (Mg-3wt.%Al-1wt.%Zn). The model includes twinning and accounts for slip-slip, slip-twin and twin-twin hardening interactions. Upon calibration and validation against experiments, the model successfully predicts the activity of the various deformation mechanisms and the evolution of the texture at different deformation stages. Furthermore, a combined three-dimensional electron backscatter diffraction and modeling approach has been adopted to investigate the effect of grain boundaries on twin propagation in the same material. Both experiments and simulations confirm that the misorientation angle has a critical influence on twin propagation. Non-Schmid effects, i.e. plastic deformation events that do not comply with the Schmid law with respect to the applied stress, are absent in the vicinity of low misorientation boundaries and become more abundant as misorientation angle increases. This research also proves that twin morphology is highly influenced by the Schmid factor. Finally, casting processes usually lead to the formation of significant amounts of gas and shrinkage microporosity, which adversely affect the mechanical properties. The application of hydrostatic pressure after casting can reduce the porosity and improve the properties but little is known about the effects on the casting’s pores size and morphology. In this work, an experimental-computational approach based on X-ray computed tomography, image analysis and finite element analysis is utilized for the determination of the 3D porosity distribution and its evolution with hydrostatic pressure in a high pressure diecast Mg AZ91 alloy (Mg-9wt.%Al-1wt.%Zn). The real 3D pore distribution obtained by tomography is used as input for the finite element simulations using an isotropic hardening law. The model is calibrated and validated against experimental stress-strain curves. The results reveal that the pressure treatment has a significant influence both on the volume and shape changes of individuals pores, which have been precisely quantified, and which are found to be related to the initial pore volume. In conclusion, the crystal plasticity model proposed in this work successfully describes the intrinsic deformation mechanisms of Mg alloys both at the mesoscale and the microscale. More specifically, it can capture slip and twin activities, their interactions, as well as the potential porosity effects arising from casting processes.

Cálculo de pilas con aparatos de apoyo tipo POT y tablero con punto fijo

In recent years a great number of high speed railway bridges have been constructed within the Spanish borders. Due to the demanding high speed trains route's geometrical requirements, bridges frequently show remarkable lengths. This fact is the main reason why railway bridges are overall longer than roadway bridges. In the same line, it is also worth highlighting the importance of high speed trains braking forces compared to vehicles. While vehicles braking forces can be tackled easily, the railway braking forces demand the existence of a fixed-point. It is generally located at abutments where the no-displacements requirement can be more easily achieved. In some other cases the fixed-point is placed in one of the interior columns. As a consequence of these bridges' length and the need of a fixed-point, temperature, creep and shrinkage strains lead to fairly significant deck displacements, which become greater with the distance to the fixed-point. These displacements need to be accommodated by the piers and bearings deformation. Regular elastomeric bearings are not able to allow such displacements and therefore are not suitable for this task. For this reason, the use of sliding PTFE POT bearings has been an extensive practice mainly because they permit sliding with low friction. This is not the only reason of the extensive use of these bearings to high-speed railways bridges. The value of the vertical loads at each bent is significantly higher than in roadway bridges. This is so mainly because the live loads due to trains traffic are much greater than vehicles. Thus, gravel rails foundation represents a non-negligible permanent load at all. All this together increases the value of vertical loads to be withstood. This high vertical load demand discards the use of conventional bearings for excessive compressions. The PTFE POT bearings' higher technology allows to accommodate this level of compression thanks to their design. The previously explained high-speed railway bridge configuration leads to a key fact regarding longitudinal horizontal loads (such as breaking forces) which is the transmission of these loads entirely to the fixed-point alone. Piers do not receive these longitudinal horizontal loads since PTFE POT bearings displayed are longitudinally free-sliding. This means that longitudinal horizontal actions on top of piers will not be forces but imposed displacements. This feature leads to the need to approach these piers design in a different manner that when piers are elastically linked to superstructure, which is the case of elastomeric bearings. In response to the previous, the main goal of this Thesis is to present a Design Method for columns displaying either longitudinally fixed POT bearings or longitudinally free PTFE POT bearings within bridges with fixed-point deck configuration, applicable to railway and road vehicles bridges. The method was developed with the intention to account for all major parameters that play a role in these columns behavior. The long process that has finally led to the method's formulation is rooted in the understanding of these column's behavior. All the assumptions made to elaborate the formulations contained in this method have been made in benefit of conservatives results. The singularity of the analysis of columns with this configuration is due to a combination of different aspects. One of the first steps of this work was to study they of these design aspects and understand the role each plays in the column's response. Among these aspects, special attention was dedicated to the column's own creep due to permanent actions such us rheological deck displacements, and also to the longitudinally guided PTFE POT bearings implications in the design of the column. The result of this study is the Design Method presented in this Thesis, that allows to work out a compliant vertical reinforcement distribution along the column. The design of horizontal reinforcement due to shear forces is not addressed in this Thesis. The method's formulations are meant to be applicable to the greatest number of cases, leaving to the engineer judgement many of the different parameters values. In this regard, this method is a helpful tool for a wide range of cases. The widespread use of European standards in the more recent years, in particular the so-called Eurocodes, has been one of the reasons why this Thesis has been developed in accordance with Eurocodes. Same trend has been followed for the bearings design implications, which are covered by the rather recent European code EN-1337. One of the most relevant aspects that this work has taken from the Eurocodes is the non-linear calculations security format. The biaxial bending simplified approach that shows the Design Method presented in this work also lies on Eurocodes recommendations. The columns under analysis are governed by a set of dimensionless parameters that are presented in this work. The identification of these parameters is a helpful for design purposes for two columns with identical dimensionless parameters may be designed together. The first group of these parameters have to do with the cross-sectional behavior, represented in the bending-curvature diagrams. A second group of parameters define the columns response. Thanks to this identification of the governing dimensionless parameters, it has been possible what has been named as Dimensionless Design Curves, which basically allows to obtain in a reduced time a preliminary vertical reinforcement column distribution. These curves are of little use nowadays, firstly because each family of curves refer to specific values of many different parameters and secondly because the use of computers allows for extremely quick and accurate calculations.