Your search keyword '"Concrete -- Testing"' showing total 300 results

1. Tensile strength and slip model for steel reinforcement anchorages and lap splices

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Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Universitat Politècnica de Catalunya. ATEM - Anàlisi i Tecnologia d'Estructures i Materials, Murcia Delso, Juan, Birrell, Matías, Astroza, Rodrigo, Carrillo, Julián, Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Universitat Politècnica de Catalunya. ATEM - Anàlisi i Tecnologia d'Estructures i Materials, Murcia Delso, Juan, Birrell, Matías, Astroza, Rodrigo, and Carrillo, Julián more...

Abstract

A unified analytical model to compute the slip response and maximum tensile stress capacity of both steel bar anchorages and lap splices is presented. The model assumes idealized bond stress distributions along the anchorage and lap-splice lengths, from which tensile stress-slip relations are derived to characterize their deformation response. A simple bond failure criterion is also established to compute the tensile strength of the anchorage or lap splice, considering potential pullout and splitting failures. The ability of the proposed model to determine the force-deformation response of anchorages and lap splices is verified using experimental data from pullout tests and uniaxial tests on lap splices reported in the literature, and its accuracy for predicting tensile strength is evaluated with results from 457 tests of the ACI 408 database on lap splices. The calibration of the model is refined using a Bayesian estimation framework, which compares analytical results obtained using randomly generated samples from estimated parameter distributions to experimental data from the lap-splice database. The resulting mean value of the experimental-to-analytical strength ratios for the lap-splice tests is practically equal to 1 and the coefficient of variation is 0.20. Based on the results of Bayesian estimation, probabilistic distributions are also proposed to quantify the uncertainty of key model parameters., Peer Reviewed, Postprint (author's final draft) more...

Published

2024

2. Giving a second live to construction waste materials: looking for concrete as a sustainable material to add the mixture and create a useful composition for the building site

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Universitat Politècnica de Catalunya. Departament de Tecnologia de l'Arquitectura, Sánchez Riera, Alberto, Marmolejo Duarte, Carlos Ramiro, Alonso Montolio, Carlos, Pons Valladares, Oriol, Coromina Baqué, Àlex, Universitat Politècnica de Catalunya. Departament de Tecnologia de l'Arquitectura, Sánchez Riera, Alberto, Marmolejo Duarte, Carlos Ramiro, Alonso Montolio, Carlos, Pons Valladares, Oriol, and Coromina Baqué, Àlex more...

Abstract

Com a projecte d'investigació s'ha volgut fer diferents barreges amb materials de la construcció per a incloure dintre el formigo. S'ha volgut substituir els agregats naturals per altres reciclats., Como proyecto de investigación se ha querido hacer diferentes mezclas con materiales de la construcción para incluir dentro hormigón. Se ha querido sustituir los agregados naturales por otros reciclados., As a research project, we wanted to make different mixtures with construction materials to include the mortar. We wanted to replace natural aggregates with recycled ones. more...

Published

2024

3. Experimental characterization of concrete-to-concrete interface shear strength design-oriented constitutive parameters

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Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Universitat Politècnica de Catalunya. EC - Enginyeria de la Construcció, Monserrat López, Andrea, Nogales Arroyo, Alejandro, Fuente Antequera, Albert de la, Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Universitat Politècnica de Catalunya. EC - Enginyeria de la Construcció, Monserrat López, Andrea, Nogales Arroyo, Alejandro, and Fuente Antequera, Albert de la more...

Abstract

In concrete composite systems, the shear strength between concrete layers cast at different times determines the mechanical performance of the structure. Different mechanisms are identified as potential shear–transfer actions through the concrete interface, namely cohesion, friction, and dowel action in case of shear reinforcement crossing the interface, and their role on the shear strength is largely determined by the shape and roughness of the interface. Codes provide formulation to predict the shear strength based on cohesion and friction variables depending on roughness parameters. However, the mechanical approach for the interface shear strength is not well-established yet and, as a result, the design-oriented expressions proposed by codes for determining the strength of composite structural members are under continuous review. In the present study, shear strength of concrete composite elements with different surface textures representative of precast and in-situ concrete constructions —left as-cast surface, resin treatment surface, indented surface and surface with bolts— was assessed. To that aim, a comprehensive experimental programme consisting on push-off tests on small-scale and large-scale specimens was conducted. Based on the test results, the coefficients of concrete cohesion and friction for the different textures were determined, assessing the possible scale effect of the mechanical performance. The experimental shear strength obtained for various cases was compared with the code provisions, showing consistent agreement., Monserrat-López was supported by the Ministerio de Universidades (Spain) with the Recovery, Transformation and Resilience Plan (RD 289/2021 and order UNI/551/2021) of NextGenerationEU; Postdoctoral Margarita Salas Fellowship funded by Universitat Politècnica de València. The study was also possible due to the Spanish Government’s Centre for the Development of Industrial Technology (CDTI) through the IDI-20210535 financial support., Peer Reviewed, Postprint (published version) more...

Published

2023

4. Pre-bcc: a novel integrated machine learning framework for predicting mechanical and durability properties of blended cement concrete

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Hisham Hafez, Ahmed Teirelbar, Rawaz Kurda, Nikola Tošić, Albert de la Fuente, Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, and Universitat Politècnica de Catalunya. EC - Enginyeria de la Construcció more...

Subjects

life-cycle assessment, Strength prediction, self-compacting concrete, supplementary cementitious materials, Regression model, Concrete -- Testing, durability prediction, Durability prediction, General Materials Science, service-life, volume fly-ash, Supplementary cementitious materials, Civil and Structural Engineering, regression model, Blended cement concrete, Enginyeria civil::Materials i estructures::Materials i estructures de formigó [Àrees temàtiques de la UPC], Building and Construction, greenhouse-gas emissions, compressive strength, high-performance concrete, high-strength concrete, blended cement concrete, blast-furnace slag, strength prediction, chloride-ion penetration, Formigó -- Proves

Abstract

Partially replacing ordinary Portland cement (OPC) with low-carbon supplementary cementitious materials (SCMs) in blended cement concrete (BCC) is perceived as the most promising route for sustainable concrete production. Despite having a lower environmental impact, BCC could exhibit performance inferior to OPC in design-governing functional properties. Hence, concrete manufacturers and scientists have been seeking methods to predict the performance of BCC mixes in order to reduce the cost and time of experimentally testing all alternatives. Machine learning algorithms have been proven in other fields for treating large amounts of data drawing meaningful relationships between data accurately. However, the existing prediction models in the literature come short in covering a wide range of SCMs and/or functional properties. Considering this, in this study, a non-linear multi-layered machine learning regression model was created to predict the performance of a BCC mix for slump, strength, and resistance to carbonation and chloride ingress based on any of five prominent SCMs: fly ash, ground granulated blast furnace slag, silica fume, lime powder and calcined clay. A database from>150 peer-reviewed sources containing>1650 data points was created to train and test the model. The statistical performance was found to be comparable to that of existing models (R = 0.94–0.97). For the first time, the model, Pre-bcc, was also made available online for users to conduct their own prediction studies. more...

Published

2022

5. Experimental study on bond of ribbed Fe-SMA bars in concrete

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Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Universitat Politècnica de Catalunya. ATEM - Anàlisi i Tecnologia d'Estructures i Materials, Fawaz, Ghassan, Murcia Delso, Juan, Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Universitat Politècnica de Catalunya. ATEM - Anàlisi i Tecnologia d'Estructures i Materials, Fawaz, Ghassan, and Murcia Delso, Juan more...

Abstract

This paper presents an experimental study on the bond strength and bond-slip behavior of ribbed Fe-SMA bars embedded in concrete. A total of 19 pullout tests were conducted on 16-mm Fe-SMA bars embedded in concrete specimens fabricated with different levels of passive confinement. The bars had been pre-strained at 4% or 8% and were activated by resistive heating 28 days after concrete casting. Different activation temperature conditions were studied: 160℃, 300℃, and no heating. A limited number of pullout tests were also conducted on conventional steel bars for comparison. Pullout specimens with low confinement failed by splitting of concrete, while well-confined specimens presented pullout failures and higher bond strengths. Fe-SMA bars activated at 160℃ in well-confined specimens had a bond strength 15% lower than that of the control steel bars and a very similar bond stress-slip response. The bond strength of Fe-SMA bars embedded in low-confined specimens was significantly reduced with heat activation. It is concluded that with sufficient passive confinement, the overall bond performance of the Fe-SMA bars is adequate and comparable to that of conventional steel bars., Postprint (published version) more...

Published

2022

6. Pre-bcc: a novel integrated machine learning framework for predicting mechanical and durability properties of blended cement concrete

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Author

Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Universitat Politècnica de Catalunya. EC - Enginyeria de la Construcció, Hafez, H.S., Teirelbar, Ahmed, Kurda, Reben, Tošić, Nikola, Fuente Antequera, Albert de la, Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Universitat Politècnica de Catalunya. EC - Enginyeria de la Construcció, Hafez, H.S., Teirelbar, Ahmed, Kurda, Reben, Tošić, Nikola, and Fuente Antequera, Albert de la more...

Abstract

Partially replacing ordinary Portland cement (OPC) with low-carbon supplementary cementitious materials (SCMs) in blended cement concrete (BCC) is perceived as the most promising route for sustainable concrete production. Despite having a lower environmental impact, BCC could exhibit performance inferior to OPC in design-governing functional properties. Hence, concrete manufacturers and scientists have been seeking methods to predict the performance of BCC mixes in order to reduce the cost and time of experimentally testing all alternatives. Machine learning algorithms have been proven in other fields for treating large amounts of data drawing meaningful relationships between data accurately. However, the existing prediction models in the literature come short in covering a wide range of SCMs and/or functional properties. Considering this, in this study, a non-linear multi-layered machine learning regression model was created to predict the performance of a BCC mix for slump, strength, and resistance to carbonation and chloride ingress based on any of five prominent SCMs: fly ash, ground granulated blast furnace slag, silica fume, lime powder and calcined clay. A database from>150 peer-reviewed sources containing>1650 data points was created to train and test the model. The statistical performance was found to be comparable to that of existing models (R = 0.94–0.97). For the first time, the model, Pre-bcc, was also made available online for users to conduct their own prediction studies., Peer Reviewed, Postprint (published version) more...

Published

2022

7. Experimental study on bond of ribbed Fe-SMA bars in concrete

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Author

Fawaz, Ghassan, Murcia Delso, Juan|||0000-0001-6424-7262, Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, and Universitat Politècnica de Catalunya. ATEM - Anàlisi i Tecnologia d'Estructures i Materials more...

Subjects

Concrete -- Testing, Enginyeria civil::Materials i estructures::Materials i estructures de formigó [Àrees temàtiques de la UPC], Formigó -- Proves

Abstract

This paper presents an experimental study on the bond strength and bond-slip behavior of ribbed Fe-SMA bars embedded in concrete. A total of 19 pullout tests were conducted on 16-mm Fe-SMA bars embedded in concrete specimens fabricated with different levels of passive confinement. The bars had been pre-strained at 4% or 8% and were activated by resistive heating 28 days after concrete casting. Different activation temperature conditions were studied: 160℃, 300℃, and no heating. A limited number of pullout tests were also conducted on conventional steel bars for comparison. Pullout specimens with low confinement failed by splitting of concrete, while well-confined specimens presented pullout failures and higher bond strengths. Fe-SMA bars activated at 160℃ in well-confined specimens had a bond strength 15% lower than that of the control steel bars and a very similar bond stress-slip response. The bond strength of Fe-SMA bars embedded in low-confined specimens was significantly reduced with heat activation. It is concluded that with sufficient passive confinement, the overall bond performance of the Fe-SMA bars is adequate and comparable to that of conventional steel bars. more...

Published

2022

8. Evaluación del uso en ingeniería civil y edificación de hormigones bioreceptivos

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Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Segura Pérez, Ignacio, Cobos Aviles, Pablo, Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Segura Pérez, Ignacio, and Cobos Aviles, Pablo more...

Abstract

En el área tecnológica de la construcción e ingeniería civil se encuentran los hormigones bio-receptivos (HB), los cuales son materiales que están en una etapa de validación y tendencia; por sus características, tienen la capacidad de ser colonizados en su sustrato por micro-organismos como bacterias, algas, briófitos u hongos, asegurando que el crecimiento biológico no afecte a las propiedades mecánicas y durabilidad del material. Varias investigaciones han sido elaboradas con el propósito de hallar la composición ideal que garantice el comportamiento adecuado del material, pero la misma es variable en función del entorno ambiental (condiciones meteorológicas y contaminación) al que estará expuesto el material, así como el micro-organismo que se desarrolle en el sustrato del material, como bacterias, algas o briófitos. Este trabajo final de máster está enfocado en realizar una guía práctica de aplicación de hormigones bio-receptivos, así como morteros y otros materiales bio-receptivos, con los propósitos de optimizar el diseño del material, acorde a su posible zona de emplazamiento y de su empleo en cualquier tipo de subsistema que sea parte de un proyecto de construcción. La meta es que esta guía de aplicación sirva al proyectista para que pueda optar por este material, siendo complementario a otro tipo de materiales ecológicos y tendencias medio ambientales que forman parte del sector de la construcción e ingeniería civil. A futuro, se espera que los hormigones bio-receptivos tomen un mayor protagonismo, por lo que dinamizar su uso y adecuarlo con diferentes tipos de tecnologías será vital para su preferencia en los proyectos de construcción., In the technological area of construction and civil engineering there are bio-receptive concretes (BC), which are materials that are in a validation and trend stage; due to their characteristics, they have the capacity to be colonized in their substrate by micro-organisms such as bacteria, algae, bryophytes or fungi, ensuring that the biological growth does not affect the mechanical properties and durability of the material. Several researches have been elaborated with the purpose of finding the ideal composition that guarantees the adequate behavior of the material, but it’s variable depending on the environmental conditions (weather conditions and contamination) to which the material will be exposed, as well as the micro-organism that will develop on the substrate of the material, such as bacteria, algae or bryophytes. This master's thesis is focused on making a practical guide for the application of bio-receptive concretes, as well as mortars and other bio-receptive materials, with the purpose of optimizing the design of the material, according to its possible location and its use in any type of subsystem that is part of a construction project. The main goal is that this application guide will help the designer to opt for this material, being complementary to other types of ecological materials and environmental trends that are part of the construction and civil engineering sector. In the future, it’s expected that bio-receptive concretes will take on greater prominence, so it will be vital to promote their use and adapt them to different types of technologies for their preference in construction projects. more...

Published

2021

9. Evaluación del comportamiento a fatiga de hormigones conductores

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Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Fuente Antequera, Albert de la, Ortíz Lozano, José Ángel, Segura Pérez, Ignacio, López Rodríguez, Gabriel, Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Fuente Antequera, Albert de la, Ortíz Lozano, José Ángel, Segura Pérez, Ignacio, and López Rodríguez, Gabriel more...

Abstract

Concrete is a material that, by its nature, has been widely used for its capability to resist compression stresses, however, in recent years, concretes have been developed with multiple functions beyond that structural. One of these functions is to detect, by itself, deformations and external forces applied. This research work, in addition with the experimental campaign developed, aims to contribute to technology regards the use of conductive concretes as self-sensing materials, evaluating the possibility that different conductive mixtures have, of transmitting information regarding the damage caused by external stresses. Specifically, for those cyclical loading-unloading stresses that, by predilection, cause accumulated damage to the structural elements. As a starting point, two mixtures were taken whose electrical properties have already been previously characterized in previous works, one of them corresponding to a high resistance concrete with recycled carbon fibers, and the other, a conventional resistance concrete with a percentage of steel slag aggregate. Subsequently, a diversification in the starting mixtures was proposed, studying six different concretes, including those used as a reference without additions to their matrix that could develop any electrical property. A mechanical characterization was carried out to know the most common characteristic values of the concrete, also an electrical characterization was developed, to know, the level of conductivity through the concrete for given electrical current. Finally, mechanical load tests (static and dynamic) were carried out to simultaneously evaluate the variation of the electrical resistivity in each of the studied mixtures., El hormigón, es un material que, por su naturaleza, ha sido ampliamente utilizado por su capacidad para resistir esfuerzos de compresión. Sin embargo, en los últimos años, se han desarrollado hormigones con múltiples funciones, que van más allá de aquella de índole estructural. Una de estas funciones es la de detectar, por sí mismo, deformaciones y esfuerzos externos. Este trabajo de investigación, junto con la campaña experimental desarrollada, pretende dar un aporte a la tecnología del uso hormigones conductores como materiales auto-sensibles, evaluando la posibilidad que tienen distintas mezclas conductoras, de transmitir información referente al daño ocasionado por esfuerzos externos. De forma específica, para aquellos esfuerzos cíclicos de carga y descarga que, por predilección, ocasionan un daño acumulado en los elementos estructurales. Como punto de partida, se tomaron dos mezclas cuyas propiedades eléctricas ya han sido previamente caracterizadas en trabajos anteriores, una de ellas, correspondiente a un hormigón de alta resistencia con fibras de carbono reciclado, y la otra, a un hormigón de resistencia convencional con un porcentaje de árido siderúrgico. Posteriormente, se propuso una diversificación en las mezclas de partida, estudiando seis hormigones distintos, incluyendo aquellos, que se usaron como referencia, es decir, sin adiciones a su matriz que pudieran desarrollar alguna propiedad eléctrica determinada. Se llevó a cabo una caracterización mecánica, para conocer los valores característicos más comunes del hormigón, y, además, una caracterización eléctrica, para conocer el nivel de conductividad al paso de una corriente eléctrica dada. Finalmente, se ejecutaron ensayos mecánicos de cargas, tanto estáticas como dinámicas, para, de forma simultánea, evaluar la variación de la resistividad eléctrica en cada una de las mezclas estudiadas., El formigó, és un material que, per la seva naturalesa, ha estat àmpliament utilitzat per la seva capacitat per resistir esforços de compressió, però, els últims anys, s'han desenvolupat formigons amb múltiples funcions, que van més enllà d'aquella d'índole estructural. Una d'aquestes funcions, és la de detectar, per si mateix, deformacions i esforços externs. Aquest treball de recerca, juntament amb la campanya experimental desenvolupada, pretén donar una aportació a la tecnologia de l'ús formigons conductors com materials auto-sensibles, avaluant la possibilitat que tenen diferents barreges conductores, de transmetre informació referent al dany ocasionat per esforços externs. De manera específica, per a aquells esforços cíclics de càrrega i descàrrega que, per predilecció, ocasionen un dany acumulat en els elements estructurals. Com a punt de partida, es van prendre dues mescles les propietats elèctriques ja han estat prèviament caracteritzades en treballs anteriors, una d'elles, corresponent a un formigó d'alta resistència amb fibres de carboni reciclat, i l'altra, a un formigó de resistència convencional amb un percentatge d'àrid siderúrgic. Posteriorment, es va proposar una diversificació en les mescles de partida, estudiant sis formigons diferents, incloent aquells, que es van usar com a referència, és a dir, sense addicions a la seva matriu que poguessin desenvolupar alguna propietat elèctrica determinada. Es va dur a terme una caracterització mecànica, per conèixer els valors característics més comuns del formigó, i, a més, una caracterització elèctrica, per conèixer el nivell de conductivitat al pas d'un corrent elèctric donat. Finalment, es van executar assajos mecànics de càrregues, tant estàtiques com dinàmiques, per, de forma simultània, avaluar la variació de la resistivitat elèctrica en cadascuna de les mescles estudiades. more...

Published

2021

10. Self-Spanning System: Modelado y Análisis de un Sistema de Encofrado Autoportante

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Universitat Politècnica de Catalunya. Departament de Resistència de Materials i Estructures a l'Enginyeria, González Puig, Manuel, Lázaro Zamacola, Rafael, Baró Canals, Oriol, Universitat Politècnica de Catalunya. Departament de Resistència de Materials i Estructures a l'Enginyeria, González Puig, Manuel, Lázaro Zamacola, Rafael, and Baró Canals, Oriol more...

Abstract

El Self-Spanning System (3S) es un sistema de encofrado autoportante diseñado y fabricado por Encofrados J. Alsina S.A. Está compuesto por paneles de diferentes tamaños que pueden generar geometrías prismáticas de dimensiones variadas, principalmente orientado para solucionar el hormigonado de estructuras habituales de puentes y carreteras. Actualmente, la producción del Self-Spanning está enfocada a la venta de paneles para casos específicos de obra. La intención de la empresa es poder ofrecer un servicio de alquiler de los módulos para que las empresas constructoras los utilicen y los devuelvan para que puedan ser reutilizados en obras distintas. El objetivo principal de este trabajo consiste en analizar el comportamiento estructural de este sistema para validar la solución modular, encontrar sus puntos críticos y determinar las cargas que limitan la solución de encofrado en cualquier configuración. Para ello, se ha modelado y analizado el estado del diseño actual de todos los componentes con la ayuda de un programa de cálculo de elementos finitos, del cual se han obtenido los esfuerzos. De manera manual, se han calculado las resistencias de los elementos que forman el sistema: perfiles, placas metálicas y uniones (atornilladas y soldadas); aplicando normativa europea y otras regulaciones relativas a encofrados se han determinado los esfuerzos límites que el sistema es capaz de resistir en las situaciones más desfavorables posibles. La conclusión del análisis es que el conjunto puede fallar por dos puntos: debido al momento flector que provoca el fallo de la unión entre paneles, o en los apoyos sobre las ménsulas, donde falla debido a la concentración de esfuerzos cortantes. A partir de los límites encontrados, el siguiente objetivo es realizar propuestas de mejora desde el punto de vista económico, resistente y de durabilidad; valoradas cualitativa y cuantitativamente. Algunas enfocadas a incrementar la capacidad resistente y otras a reducir el peso, ya que tiene, The Self-Spanning System (3S) is a self-supporting formwork system designed and manufactured by Encofrados J. Alsina S.A. It is made of panels with different sizes that can generate prismatic geometries of several dimensions, mainly oriented to solve the pouring of usual structures of bridges and roads. Currently, the production of Self-Spanning is focused on selling panels for specific construction sites. The company's intention is to offer a rental service of the modules so that construction companies can use them and return them so that they can be reused in different works. The main objective of this project is to analyze the structural behavior of the system in order to validate the modular solution, find its critical points and establish the loads that limit the formwork solution in any given configuration. For this purpose, the current design state of all components has been modeled and analyzed with the help of a finite element calculation program, from where the stresses have been obtained. The resistances of the elements that make up the system: profiles, metal plates and joints (bolted and welded) have been calculated manually; applying European standards and other regulations related to formwork, the maximum stresses that the system can resist have been established in the most unfavorable possible situations. The conclusion of the analysis is that the system can fail at two points: due to the bending moment that causes the failure of the joint between panels, or at the supports on the consoles, where it fails due to the concentration of shear forces. Based on the limitations found, the next objective is to make proposals for improvement from the economic, resistance and durability point of view; evaluated qualitatively and quantitatively. Some focused on increasing the strength capacity and others on reducing the weight, since it has a direct impact on the production cost. In addition, several guidelines are proposed to help the company to target actions, Objectius de Desenvolupament Sostenible::9 - Indústria, Innovació i Infraestructura::9.1 - Desenvolupar infraestructures fiables, sostenibles, resilients i de qualitat, incloent infraestructures regionals i transfrontereres, per tal de donar suport al desenvolupament econòmic i al benestar humà, amb especial atenció a l’accés assequible i equitatiu per a totes les persones more...

Published

2021

11. Estudio de la adherencia de la armadura activa de polímeros reforzados con fibras (FRP) en elementos de hormigón pretensado

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Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Oller Ibars, Eva, Marí Bernat, Antonio Ricardo, Quiñones Pardo, Giovanny Alberto, Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Oller Ibars, Eva, Marí Bernat, Antonio Ricardo, and Quiñones Pardo, Giovanny Alberto more...

Abstract

Los métodos usados para la caracterización del mecanismo adherente hormigón -FRP son la experimentación con ensayos, la formulación teórica, y la modelización numérica. Sin embargo, hasta hoy en día, no se ha logrado encontrar la combinación ideal entre estos recursos que permita definir finalmente tal comportamiento; además de que usualmente la diversidad de conocimiento no es unánime y más bien es divergente. Por lo que se pretende aquí conseguir un método por el cual se unifiquen los diversos hallazgos existentes en la bibliografía, y se pueda al fin abordar adecuadamente el estudio del mecanismo de la armadura pretesa FRP y el hormigón., The methods used for the characterization of the bonding between concrete-FRP are the experimentation with tests, the theoretical formulation, and the numerical modeling. However, until today, it has not been possible to find the ideal combination between these resources that allows us to finally define such behavior; In addition, the diversity of knowledge is usually not unanimous and rather divergent. Therefore, the aim here is to achieve a method by which the various existing findings in the bibliography are unified, and the study of the mechanism of the FRP prestressed reinforcement and concrete can finally be adequately addressed., Els mètodes usats per a la caracterització de l'mecanisme adherent formigó -FRP són l'experimentació amb assajos, la formulació teòrica, i la modelització numèrica. No obstant això, fins avui dia, no s'ha aconseguit trobar la combinació ideal entre aquests recursos que permeti definir finalment aquest comportament; a més que usualment la diversitat de coneixement no és unànime i més aviat és divergent. Per la qual cosa, es pretén aquí aconseguir un mètode pel qual s'unifiquin les diverses troballes existents a la bibliografia, i es pugui a la fi abordar adequadament l'estudi de l'mecanisme de l'armadura Pretesa FRP i el formigó. more...

Published

2021

12. Efectividad del pretensado de la losa de hormigón en estructuras continuas mixtas de hormigón y acero

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Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Marí Bernat, Antonio Ricardo, Mirambell Arrizabalaga, Enrique, Salazar Serrano, David, Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Marí Bernat, Antonio Ricardo, Mirambell Arrizabalaga, Enrique, and Salazar Serrano, David more...

Abstract

Las estructuras mixtas trabajan de forma óptima cuando se pueden aprovechar simultánea y solidariamente la resistencia a compresión del hormigón y la resistencia a tracción del acero, tal como ocurre en vigas o puentes biapoyados. Sin embargo, cuando se trata de puentes continuos, en la zona de momentos negativos la losa está sometido a tensiones de tracción y el hormigón fisura, provocando una redistribución de tensiones y un aumento de las flechas instantáneas y diferidas. Una forma de evitar o controlar la fisuración es pretensando la losa de hormigón. En esta Tesis de Máster se evalúa la efectividad del pretensado, mediante estudios paramétricos basados en modelos numéricos, y en función del instante de aplicación, es decir, si se lleva a cabo antes o después de conectar la losa a la viga metálica y de la longitud del cable de pretensado en la losa de hormigón. Se realizan estudios tanto a nivel seccional como a nivel global de la estructura, simulando tres tipologías de puentes: sin pretensado, pretensado antes de conectar y pretensado después de conectar., Composite structures work optimally when the compressive strength of concrete and the tensile strength of steel can be used simultaneously, as occurs in simple supported beams and bridges. However, for continuous bridges, in the negative bending moment zone the slab is subjected to tensile stresses and the concrete cracks caused a redistribution of stresses and an increase in instantaneous and delayed deflections. One way to avoid or control cracking is by prestressing the concrete slab. In this Master's Thesis, the effectiveness of prestressing is evaluated by parametric studies based on numerical models, and in the function of the instant of introduction and the prestressing tendon length in slab concrete. Studies are carried out both at the sectional level and at the global level of the structure, simulating three types of bridges: without prestressed, prestressed before connecting, and prestressed after connecting. more...

Published

2021

13. Suitability of different tests for characterization of the dimpled concrete-to-concrete interface

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Author

Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Universitat Politècnica de Catalunya. EC - Enginyeria de la Construcció, Cairovic, Ðorde, Fuente Antequera, Albert de la, Zlámal, Martin, Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Universitat Politècnica de Catalunya. EC - Enginyeria de la Construcció, Cairovic, Ðorde, Fuente Antequera, Albert de la, and Zlámal, Martin more...

Abstract

This is the peer reviewed version of the following article: [Čairović, Đ, de la Fuente, A, Zlámal, M, et al. Suitability of different tests for characterization of the dimpled concrete‐to‐concrete interface. Structural Concrete. 2020; 1– 18. https://doi.org/10.1002/suco.201900513], which has been published in final form at https://doi.org/10.1002/suco.201900513. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Self-Archiving., The main aim of this study was to assess the suitability of different existing test setups for the mechanical characterization of a dimpled interface obtained by casting concrete against dimpled high-density polyethylene (HDPE) membrane. Even though this type of interface roughening is widely used, especially for monolithic connections between precast elements, to the best of the authors' knowledge there is no research providing any data regarding its roughness parameters, tension, and shear strength, nor its failure modes. To this end, a two-fold objective was established for this research: (a) to identify and analyze, from a technical standpoint, the available test configurations for characterizing the mechanical performance of interfaces, and (b) to perform an extensive experimental program devoted to characterizing the mechanical performance of a dimpled HDPE membrane—cast concrete interface. The suitability of each test for reproducing the expected stress state and the actual resistance mechanism was analyzed. Moreover, a comparison between tension and shear tests, including its main advantages and disadvantaged are also presented., This study was conducted with the support of the Ministry of Industry and Trade of the Czech Republic, project No. FV20595 – “Steel-concrete composite for precise machine tools structures”, and the Technology Agency of the Czech Republic, project No. TH0402043 – “Extension of the application area of FRP reinforcement in concrete structures”. This support is gratefully acknowledged., Peer Reviewed, Postprint (author's final draft) more...

Published

2021

14. Tile vaults as integrated formwork for concrete shells:study of the influence of he model network in the reinforcement design

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Author

Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Roca Fabregat, Pedro, López López, David, Liu, Yuanpeng, Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Roca Fabregat, Pedro, López López, David, and Liu, Yuanpeng more...

Abstract

El análisis límite extendido al caso de la mampostería reforzada (ELARM) es un método que permite diseñar y analizar hormigón armado, mampostería y láminas s compuestas bidimensionales o tridimensionales con una variedad de formas. Para el diseño de láminas de hormigón armado por ELARM, la elección aleatoria de parámetros y el diagrama de forma pueden conducir a resultados conservadores, es decir, una cantidad considerable de refuerzo. Esta investigación tiene como objetivo investigar cómo elegir los parámetros adecuados y el diagrama de forma para reducir el uso de refuerzos. En esta disertación, se propone un algoritmo para buscar los valores óptimos de la dirección de las barras de acero, la posición del refuerzo y la altura de la red de empuje para determinar la cantidad mínima de refuerzo para un diagrama de forma dado. Además, se ensayan una serie de diagramas de forma para bóvedas de diferentes geometrías bajo varios casos de carga para investigar la influencia del patrón del diagrama de forma en la cantidad de refuerzo. Los resultados revelan que, además del patrón del diagrama de forma, otros dos factores, la distribución de fuerza en el diagrama de forma y el proceso para calcular el ancho asignado en ELARM3D, también pueden afectar la cantidad de refuerzo y necesitan más investigación. Además, con base en los resultados, se proponen algunas recomendaciones para los usuarios de ELARM3D en su versión actual sobre cómo construir un diagrama de forma adecuado, lo que requiere una cantidad relativamente baja de refuerzo., Extended Limit Analysis for Reinforced Masonry (ELARM) is a method that allows to design and analyze two- or three-dimensional reinforced concrete, masonry, and composite shells of most shapes. For the design of reinforced concrete shells by ELARM, random choices of parameters and the form diagram may lead to conservative results, i.e., a considerable amount of reinforcement. This research aims to find out how to choose proper parameters and the form diagram to reduce reinforcement usage. In this dissertation, an algorithm is proposed to search for the optimal values of the steel bar direction, the reinforcement position, and the thrust network height to determine the least reinforcement amount for a given form diagram. Besides, a series of form diagrams for vaults of different geometries under various load cases are tested to investigate the influence of the form diagram’s pattern on the reinforcement amount. The results reveal that, apart from the form diagram’s pattern, other two factors, the force distribution in the form diagram and the process to calculate the assigned width in ELARM3D, may also affect the reinforcement amount and need further research. Besides, based on the results, some recommendations are provided for the users of ELARM3D of the current version on how to build a proper form diagram, which requires a relatively low amount of reinforcement. more...

Published

2021

15. Self-Spanning System: Modelado y Análisis de un Sistema de Encofrado Autoportante

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Author

Baró Canals, Oriol, Universitat Politècnica de Catalunya. Departament de Resistència de Materials i Estructures a l'Enginyeria, González Puig, Manuel, and Lázaro Zamacola, Rafael

Subjects

Concrete construction -- Formwork -- Mathematical models, Esforç i tensió -- Simulació per ordinador, Enginyeria civil [Àrees temàtiques de la UPC], Concrete -- Testing, Strains and stresses -- Computer simulation, Enginyeria dels materials [Àrees temàtiques de la UPC], Formigó -- Proves, Strength of materials -- Computer simulation, Construcció en formigó -- Encofrat -- Models matemàtics

Abstract

El Self-Spanning System (3S) es un sistema de encofrado autoportante diseñado y fabricado por Encofrados J. Alsina S.A. Está compuesto por paneles de diferentes tamaños que pueden generar geometrías prismáticas de dimensiones variadas, principalmente orientado para solucionar el hormigonado de estructuras habituales de puentes y carreteras. Actualmente, la producción del Self-Spanning está enfocada a la venta de paneles para casos específicos de obra. La intención de la empresa es poder ofrecer un servicio de alquiler de los módulos para que las empresas constructoras los utilicen y los devuelvan para que puedan ser reutilizados en obras distintas. El objetivo principal de este trabajo consiste en analizar el comportamiento estructural de este sistema para validar la solución modular, encontrar sus puntos críticos y determinar las cargas que limitan la solución de encofrado en cualquier configuración. Para ello, se ha modelado y analizado el estado del diseño actual de todos los componentes con la ayuda de un programa de cálculo de elementos finitos, del cual se han obtenido los esfuerzos. De manera manual, se han calculado las resistencias de los elementos que forman el sistema: perfiles, placas metálicas y uniones (atornilladas y soldadas); aplicando normativa europea y otras regulaciones relativas a encofrados se han determinado los esfuerzos límites que el sistema es capaz de resistir en las situaciones más desfavorables posibles. La conclusión del análisis es que el conjunto puede fallar por dos puntos: debido al momento flector que provoca el fallo de la unión entre paneles, o en los apoyos sobre las ménsulas, donde falla debido a la concentración de esfuerzos cortantes. A partir de los límites encontrados, el siguiente objetivo es realizar propuestas de mejora desde el punto de vista económico, resistente y de durabilidad; valoradas cualitativa y cuantitativamente. Algunas enfocadas a incrementar la capacidad resistente y otras a reducir el peso, ya que tiene un impacto directo en el coste de producción. Adicionalmente, se proponen varias líneas de actuación para ayudar a la empresa a orientar sus acciones yseguir mejorando el sistema. Uno de los grandes retos que presenta esta investigación es que, debido a la modularidad del sistema, existe una gran variabilidad de geometrías y disposiciones en las que puede ser usado, con la consecuente variabilidad de solicitaciones. Otro reto ha sido la definición de las hipótesis y simplificaciones del sistema que permiten obtener resultados útiles y generalizables a cualquier geometría para poder validar el sistema en cualquier situación de aplicación. Ha sido interesante investigar el impacto actual en el medio ambiente por parte del sector de la construcción y de la industria de la siderurgia y mecanizado del acero, ya que existe controversia sobre la enorme cantidad de residuos y consumo de energía que presenta. Por suerte, existen numerosas acciones para acercar la construcción a las mínimas emisiones de CO2 antes del 2050 The Self-Spanning System (3S) is a self-supporting formwork system designed and manufactured by Encofrados J. Alsina S.A. It is made of panels with different sizes that can generate prismatic geometries of several dimensions, mainly oriented to solve the pouring of usual structures of bridges and roads. Currently, the production of Self-Spanning is focused on selling panels for specific construction sites. The company's intention is to offer a rental service of the modules so that construction companies can use them and return them so that they can be reused in different works. The main objective of this project is to analyze the structural behavior of the system in order to validate the modular solution, find its critical points and establish the loads that limit the formwork solution in any given configuration. For this purpose, the current design state of all components has been modeled and analyzed with the help of a finite element calculation program, from where the stresses have been obtained. The resistances of the elements that make up the system: profiles, metal plates and joints (bolted and welded) have been calculated manually; applying European standards and other regulations related to formwork, the maximum stresses that the system can resist have been established in the most unfavorable possible situations. The conclusion of the analysis is that the system can fail at two points: due to the bending moment that causes the failure of the joint between panels, or at the supports on the consoles, where it fails due to the concentration of shear forces. Based on the limitations found, the next objective is to make proposals for improvement from the economic, resistance and durability point of view; evaluated qualitatively and quantitatively. Some focused on increasing the strength capacity and others on reducing the weight, since it has a direct impact on the production cost. In addition, several guidelines are proposed to help the company to target actions and further improve the system. One of the great challenges presented by this research is that, due to the modularity of the system, there exists a great variability of geometries and arrangements in which it can be used, with the resulting variability of loads. Another challenge has been the definition of the hypotheses and simplifications of the system that allow obtaining useful and scalable results to any geometry in order to validate the system in any case of application. It has been interesting to investigate the current impact on the environment by the construction sector and the steel and steel machining industry, as there is controversy about the enormous amount of waste and energy consumption it presents. Fortunately, there are numerous actions to bring construction closer to minimum CO2 emissions by 2050 Objectius de Desenvolupament Sostenible::9 - Indústria, Innovació i Infraestructura::9.1 - Desenvolupar infraestructures fiables, sostenibles, resilients i de qualitat, incloent infraestructures regionals i transfrontereres, per tal de donar suport al desenvolupament econòmic i al benestar humà, amb especial atenció a l’accés assequible i equitatiu per a totes les persones more...

Published

2021

16. Evaluación del comportamiento a fatiga de hormigones conductores

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Author

López Rodríguez, Gabriel, Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Fuente Antequera, Albert de la, Ortíz Lozano, José Ángel, and Segura Pérez, Ignacio

Subjects

Enginyeria civil [Àrees temàtiques de la UPC], fatiga, Assaigs de materials, Concrete -- Testing, Piezoelectricity, Materials -- Testing, piezorresistividad, Hormigón conductor, Formigó -- Proves, monitorización de daños, Piezoelectricitat

Abstract

Concrete is a material that, by its nature, has been widely used for its capability to resist compression stresses, however, in recent years, concretes have been developed with multiple functions beyond that structural. One of these functions is to detect, by itself, deformations and external forces applied. This research work, in addition with the experimental campaign developed, aims to contribute to technology regards the use of conductive concretes as self-sensing materials, evaluating the possibility that different conductive mixtures have, of transmitting information regarding the damage caused by external stresses. Specifically, for those cyclical loading-unloading stresses that, by predilection, cause accumulated damage to the structural elements. As a starting point, two mixtures were taken whose electrical properties have already been previously characterized in previous works, one of them corresponding to a high resistance concrete with recycled carbon fibers, and the other, a conventional resistance concrete with a percentage of steel slag aggregate. Subsequently, a diversification in the starting mixtures was proposed, studying six different concretes, including those used as a reference without additions to their matrix that could develop any electrical property. A mechanical characterization was carried out to know the most common characteristic values of the concrete, also an electrical characterization was developed, to know, the level of conductivity through the concrete for given electrical current. Finally, mechanical load tests (static and dynamic) were carried out to simultaneously evaluate the variation of the electrical resistivity in each of the studied mixtures. El hormigón, es un material que, por su naturaleza, ha sido ampliamente utilizado por su capacidad para resistir esfuerzos de compresión. Sin embargo, en los últimos años, se han desarrollado hormigones con múltiples funciones, que van más allá de aquella de índole estructural. Una de estas funciones es la de detectar, por sí mismo, deformaciones y esfuerzos externos. Este trabajo de investigación, junto con la campaña experimental desarrollada, pretende dar un aporte a la tecnología del uso hormigones conductores como materiales auto-sensibles, evaluando la posibilidad que tienen distintas mezclas conductoras, de transmitir información referente al daño ocasionado por esfuerzos externos. De forma específica, para aquellos esfuerzos cíclicos de carga y descarga que, por predilección, ocasionan un daño acumulado en los elementos estructurales. Como punto de partida, se tomaron dos mezclas cuyas propiedades eléctricas ya han sido previamente caracterizadas en trabajos anteriores, una de ellas, correspondiente a un hormigón de alta resistencia con fibras de carbono reciclado, y la otra, a un hormigón de resistencia convencional con un porcentaje de árido siderúrgico. Posteriormente, se propuso una diversificación en las mezclas de partida, estudiando seis hormigones distintos, incluyendo aquellos, que se usaron como referencia, es decir, sin adiciones a su matriz que pudieran desarrollar alguna propiedad eléctrica determinada. Se llevó a cabo una caracterización mecánica, para conocer los valores característicos más comunes del hormigón, y, además, una caracterización eléctrica, para conocer el nivel de conductividad al paso de una corriente eléctrica dada. Finalmente, se ejecutaron ensayos mecánicos de cargas, tanto estáticas como dinámicas, para, de forma simultánea, evaluar la variación de la resistividad eléctrica en cada una de las mezclas estudiadas. El formigó, és un material que, per la seva naturalesa, ha estat àmpliament utilitzat per la seva capacitat per resistir esforços de compressió, però, els últims anys, s'han desenvolupat formigons amb múltiples funcions, que van més enllà d'aquella d'índole estructural. Una d'aquestes funcions, és la de detectar, per si mateix, deformacions i esforços externs. Aquest treball de recerca, juntament amb la campanya experimental desenvolupada, pretén donar una aportació a la tecnologia de l'ús formigons conductors com materials auto-sensibles, avaluant la possibilitat que tenen diferents barreges conductores, de transmetre informació referent al dany ocasionat per esforços externs. De manera específica, per a aquells esforços cíclics de càrrega i descàrrega que, per predilecció, ocasionen un dany acumulat en els elements estructurals. Com a punt de partida, es van prendre dues mescles les propietats elèctriques ja han estat prèviament caracteritzades en treballs anteriors, una d'elles, corresponent a un formigó d'alta resistència amb fibres de carboni reciclat, i l'altra, a un formigó de resistència convencional amb un percentatge d'àrid siderúrgic. Posteriorment, es va proposar una diversificació en les mescles de partida, estudiant sis formigons diferents, incloent aquells, que es van usar com a referència, és a dir, sense addicions a la seva matriu que poguessin desenvolupar alguna propietat elèctrica determinada. Es va dur a terme una caracterització mecànica, per conèixer els valors característics més comuns del formigó, i, a més, una caracterització elèctrica, per conèixer el nivell de conductivitat al pas d'un corrent elèctric donat. Finalment, es van executar assajos mecànics de càrregues, tant estàtiques com dinàmiques, per, de forma simultània, avaluar la variació de la resistivitat elèctrica en cadascuna de les mescles estudiades. more...

Published

2021

17. Suitability of different tests for characterization of the dimpled concrete-to-concrete interface

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Author

Martin Zlámal, Đorđe Čairović, Jakub Venclovský, Frantisek Girgle, Ondřej Januš, Petr Štěpánek, Albert de la Fuente, Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, and Universitat Politècnica de Catalunya. EC - Enginyeria de la Construcció more...

Subjects

Interface (Java), business.industry, Computer science, 0211 other engineering and technologies, Concrete -- Testing, Precast structures, Enginyeria civil::Materials i estructures::Materials i estructures de formigó [Àrees temàtiques de la UPC], Concrete-to-concrete interface, 020101 civil engineering, 02 engineering and technology, Building and Construction, Structural engineering, Interface shear strength, 0201 civil engineering, Characterization (materials science), Test setups, Mechanics of Materials, 021105 building & construction, General Materials Science, business, Interface tensile strength, Formigó -- Proves, Dimpled interface, Civil and Structural Engineering

Abstract

This is the peer reviewed version of the following article: [Čairović, Đ, de la Fuente, A, Zlámal, M, et al. Suitability of different tests for characterization of the dimpled concrete‐to‐concrete interface. Structural Concrete. 2020; 1– 18. https://doi.org/10.1002/suco.201900513], which has been published in final form at https://doi.org/10.1002/suco.201900513. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Self-Archiving. The main aim of this study was to assess the suitability of different existing test setups for the mechanical characterization of a dimpled interface obtained by casting concrete against dimpled high-density polyethylene (HDPE) membrane. Even though this type of interface roughening is widely used, especially for monolithic connections between precast elements, to the best of the authors' knowledge there is no research providing any data regarding its roughness parameters, tension, and shear strength, nor its failure modes. To this end, a two-fold objective was established for this research: (a) to identify and analyze, from a technical standpoint, the available test configurations for characterizing the mechanical performance of interfaces, and (b) to perform an extensive experimental program devoted to characterizing the mechanical performance of a dimpled HDPE membrane—cast concrete interface. The suitability of each test for reproducing the expected stress state and the actual resistance mechanism was analyzed. Moreover, a comparison between tension and shear tests, including its main advantages and disadvantaged are also presented. This study was conducted with the support of the Ministry of Industry and Trade of the Czech Republic, project No. FV20595 – “Steel-concrete composite for precise machine tools structures”, and the Technology Agency of the Czech Republic, project No. TH0402043 – “Extension of the application area of FRP reinforcement in concrete structures”. This support is gratefully acknowledged. more...

Published

2021

18. Upgrading the quality of mixed recycled aggregates from construction and demolition waste by using near-infrared sorting technology

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Author

Vegas, Inigo, Broos, Kris, Nielsen, Peter, Lambertz, Oliver, and Lisbona, Amaia

Subjects

Concrete -- Testing, Aggregates (Building materials) -- Analysis -- Testing, Leaching -- Methods, Near infrared spectroscopy -- Methods, Business, Construction and materials industries

Abstract

Recycled aggregates of high-purity, guaranteeing optimal technical and environmental performance, are required for high-grade construction applications such as concrete. The main problem constituents causing a decrease in the quality of [...] more...

Published

2015

19. Embedded cement-based piezoelectric sensors for acoustic emission detection in concrete

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Author

Qin, Lei, Lu, Youyuan, and Li, Zongjin

Subjects

Sensors -- Design and construction, Sensors -- Materials, Acoustic emission testing -- Methods, Acoustic emission testing -- Equipment and supplies, Concrete -- Mechanical properties, Concrete -- Acoustic properties, Concrete -- Testing, Cement -- Usage, Circuit design -- Methods, Circuit designer, Integrated circuit design, Engineering and manufacturing industries, Science and technology

Abstract

In this research, the feasibility of using embedded cement-based piezoelectric sensors to detect the acoustic emission (AE) activities in concrete has been studied. A sensor is presented that is made with the 0-3 cement-based piezoelectric composite as sensing element. The composite is formed by pressing mixed cement-piezoelectric powder into a penny-shaped thin plate. In the terminology of 0-3, 0 represents the dimension of the piezoelectric particle and 3 stands for the dimensions of the matrix. By adjusting the dosage of the piezoelectric ceramic powder, the properties of the composite can be tailored to suit designated applications. Sensors made of the composite (0-3 sensor) are able to be embedded into concrete and have broadband frequency response. It is shown by a four-point bending test on a concrete beam that the sensors have excellent ability in AE activity detection. High sensitivity is also observed for the embedded sensors. DOI: 10.1061/(ASCE)MT.1943-5533.0000133 CE Database subject headings: Composite materials; Concrete; Piezoelectricity; Probe instruments; Acoustic techniques. Author keywords: Acoustic emission; Composite materials; Concrete; Piezoelectricity. more...

Published

2010

20. Sensitivity of model parameter on dynamic behavior simulation of HPC

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Author

Hamid, R., Hasan, A.S.M.Z., and Ariffin, A.K.

Subjects

Concrete -- Mechanical properties, Concrete -- Testing, Dynamic testing -- Methods, Technology application, Engineering and manufacturing industries, Science and technology

Abstract

This paper investigates the effect of friction angle and flow ratio on stress-strain relationship of high performance concrete (HPC) subjected to dynamic load. The simulation reveals that ultimate compressive strength of HPC shows a discrepancy from 111 to 139 MPa for friction angles between 30[degrees] and 50[degrees] at a loading rate of 800 GPa/s compared to 87 MPa under static loading. The influence of friction angle on strain is found to be nearly constant, that is, at 0.004. Lower value of flow ratio leads to larger deformation. In turn, the strength is lower. The results show that both friction angle and flow ratio exhibit some degree of sensitivity on either the stress or strain or both. The dynamic strength dependencies on friction angle and flow ratio are correlated. The equation contributes in defining material model parameters in the analysis of HPC dynamic behavior. DOI: 10.1061/(ASCE)MT.1943-5533.0000131 CE Database subject headings: Concrete; Compressive strength; Dynamic loads; Regression analysis; Sensitivity analysis; Stress strain relations; Flow ratio; Friction. Author keywords: Compressive strength; Dynamic loads; High performance concrete; Regression analysis; Sensitivity; Stress strain relations; Flow ratio; Friction angle. more...

Published

2010

21. Effect of concrete compositions in energy transmission of surface waves for nondestructive crack depth evaluation

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Author

Shin, Sung Woo, Min, Jiyoung, and Lee, Jae-Yong

Subjects

Concrete -- Mechanical properties, Concrete -- Composition, Concrete -- Testing, Waves -- Properties, Non-destructive testing -- Methods, Wave propagation -- Research, Engineering and manufacturing industries, Science and technology

Abstract

The amount and magnitude of absorption and scattering of stress waves in concrete, mainly due to internal friction and aggregate inclusions, may be different when concrete mix proportions vary. In this study, we investigate the effect of concrete composition on the measurements of self-calibrated surface wave transmission functions (TRFs) and spectral energy transmission ratios (SETRs) which are used for crack depth estimation in concrete slabs. A series of experiments is carried out on a range of concrete specimens having more realistic crack (not a notch). It is found that the self-calibrated TRFs are very sensitive to both the concrete composition and the crack depth. However, the SETR is less sensitive to the concrete composition and more sensitive to the changes of crack depths. In conclusion the spectral energy transmission method can be effectively used for crack depth estimation in concrete regardless of their material compositions. DOI: 10.1061/(ASCE)MT.1943-5533.0000065 CE Database subject headings: Concrete: Cracking: Evaluation: Surface waves: Nondestructive tests. Author keywords: NDT of concrete; Crack depth evaluation: Surface wave transmission; Concrete compositions. more...

Published

2010

22. Fresh, mechanical, and durability characteristics of self-consolidating concrete incorporating volcanic ash

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Author

Hossain, K.M.A. and Lachemi, M.

Subjects

Concrete -- Mechanical properties, Concrete -- Materials, Concrete -- Testing, Building materials -- Service life, Building materials -- Research, Engineering and manufacturing industries, Science and technology

Abstract

Self-consolidating concrete (SCC) is known for its excellent deformability, high resistance to segregation, and use in congested reinforced concrete structures characterized by difficult casting conditions without applying vibration. The use of known mineral admixtures such as fly ash and slag cement has proved very effective in the production of nonexpensive SCC with satisfactory fresh and hardened properties. However, the use of volcanic ash (VA) in SCC is new and can provide low cost SCC. This paper presents fresh, mechanical, and durability characteristics of VA based SCC mixtures (VA-SCCs). VA-SCCs are developed by varying water-to-binder ratio, percentages of VA as cement replacement, and dosages of superplasticizer (SP). Mix design parameters are optimized to achieve minimum use of SP and optimum use of VA. The fresh concrete properties are determined from slump flow, V-funnel flow time, bleeding, air content, and segregation tests. The mechanical properties and durability characteristics such as compressive strength, freezing-thawing resistance, rapid chloride permeability, surface scaling resistance, and drying shrinkage are determined to evaluate the performance of VA-SCCs. The study produces encouraging results and confirms the production of satisfactory VA based SCC mixtures with acceptable properties. VA-SCCs having a minimum strength of 15 MPa (requirement for some structural concrete applications) can be obtained by replacing up to 50% (by mass) of cement by VA. Development of nonexpensive and environmental friendly VA-SCC with acceptable strength and durability characteristics (as illustrated in this study) is extremely helpful for the sustainable development and rehabilitation of volcanic disaster areas around the world. DOI: 10.1061/(ASCE)MT.1943-5533.0000063 CE Database subject headings: Concrete; Volcanic ash; Mechanical properties; Durability. Author keywords: Self-consolidating concrete; Volcanic ash; Fresh and mechanical properties; Durability. more...

Published

2010

23. Design and application of risk adjusted cumulative sum for strength monitoring of ready mixed concrete

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Author

Sarkar, Debasis and Dutta, Goutam

Subjects

Engineering design -- Methods, Stress analysis (Engineering) -- Methods, Strength of materials -- Research, Concrete -- Design and construction, Concrete -- Mechanical properties, Concrete -- Testing, Construction and materials industries, Engineering and manufacturing industries, Science and technology

Abstract

The cumulative sum procedure is an effective statistical process control tool that can be used to monitor the quality of ready mixed concrete during its production process. In this paper, an attempt has been made to design and apply a new cumulative sum procedure for the ready mixed concrete industry, which takes care of the risks involved in and associated with the production of concrete. This new procedure can be termed as risk adjusted cumulative sum. The 28-day characteristic cube compressive strengths of the various grades of concrete and detailed information regarding the production process and the risks associated with production were collected from the operational ready mixed concrete plants in and around Ahmedabad and Delhi, two important cities in India. The risks were quantified using a likelihood-based scoring method. Finally, a risk adjusted cumulative sum model was developed by imposing the weighted score of the estimated risks on the conventional cumulative sum plot. This model is a more effective and realistic tool for monitoring the strength of ready mixed concrete. DOI: 10.1061/(ASCE)CO.1943-7862.0000170 CE Database subject headings: Monitoring; Concrete; Mixing; Construction materials; Strength. Author keywords: Strength monitoring; Ready mixed concrete; Cumulative sum; Risk adjusted cumulative sum. more...

Published

2010

24. Stress-strain behavior of concrete in hybrid FRP-concrete-steel double-skin tubular columns

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Author

Yu, T., Teng, J.G., and Wong, Y.L.

Subjects

Strains and stresses -- Research, Stress relaxation (Materials) -- Research, Stress relieving (Materials) -- Research, Concrete -- Mechanical properties, Concrete -- Testing, Reinforced plastics -- Mechanical properties, Steel -- Mechanical properties, Columns -- Mechanical properties, Columns -- Materials, Stress analysis (Engineering) -- Methods, Engineering and manufacturing industries, Science and technology

Abstract

Hybrid fiber-reinforced polymer (FRP) concrete-steel double-skin tubular columns are a new form of hybrid columns recently proposed by the second writer. The new column consists of an inner steel tube and an outer FRP tube, with the space between them filled with concrete. The new column possesses several advantages over existing columns including excellent ductility and corrosion resistance. This paper first examines the behavior of the confined concrete between the two tubes using a finite-element model to understand the effects of the key parameters including the stiffness of the FRP tube, the stiffness of the steel tube, and the size of the inner void. Based on the available experimental observations and the results from the finite-element model, a simple stress-strain model for the confined concrete is proposed for use in practical design. Comparisons with test results show that the proposed model provides reasonably accurate and conservative predictions. DOI: 10.1061/(ASCE)ST.1943-541X.0000121 CE Database subject headings: Stress strain relations; Concrete; Fiber reinforced polymer; Composite columns. Author keywords: Stress-strain relations; Concrete; Fiber-reinforced polymer; Composite columns. more...

Published

2010

25. Strength deterioration of plain and metakaolin concretes in aggressive sulfate environments

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Author

Guneyisi, Erhan, Gesoglu, Mehmet, and Mermerdas, Kasim

Subjects

Sulfates -- Environmental aspects, Strength of materials -- Research, Concrete -- Materials, Concrete -- Mechanical properties, Concrete -- Chemical properties, Concrete -- Testing, Materials -- Testing, Materials -- Methods, Engineering and manufacturing industries, Science and technology

Abstract

This study investigates the effectiveness of metakaolin (MK) on the improvement of durability of concretes to sulfate attack. Experimental parameters of the study were MK replacement levels, water to cementitious materials ratio, initial curing procedure in terms of air curing and water curing, and type of the sulfate exposure regimes such as continuous and drying-immersion cyclic exposures. The degree of sulfate attack was evaluated by the reduction in compressive strength (CS) of concrete. The tests were conducted at specified periods up to 365 days. At the end of initial curing, concrete specimens were divided into three groups such that the first group was transferred into tap water to be used as control in the assessment of CS reduction while the other groups were immersed in 10% [Na.sub.2]S[O.sub.4] solution for the period of 365 days under continuous or cyclic exposures. The results indicated that inclusion of MK as modifying agent increased the resistance of concrete against sulfate attack depending mainly on the MK replacement level, w/cm ratio, and initial curing procedure adopted. DOI: 10.1061/(ASCE)MT.1943-5533.0000034 CE Database subject headings: Dewatering; Sulfates; Compressive strength; Deterioration; Concrete. Author keywords: Drying-immersion cycles; Initial curing; Metakaolin; Sulfate attack; Compressive strength reduction. more...

Published

2010

26. Proposed behavioral model for deicer scaling resistance of slag cement concrete

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Author

Battaglia, Irene K., Munoz, Jose F., and Cramer, Steven M.

Subjects

Slag cement -- Mechanical properties, Slag cement -- Testing, Concrete -- Materials, Concrete -- Mechanical properties, Concrete -- Testing, Materials -- Testing, Materials -- Methods, Engineering and manufacturing industries, Science and technology

Abstract

This study was performed to define and evaluate specific mechanisms that control deicer scaling (freeze-thaw) resistance in slag cement concrete. Modified ASTM C672 procedures were used to measure the deicer scaling resistance of concrete made with grade 120 slag cement substituted for ordinary portland cement at equal mass replacement levels of 30 and 50%. Two types of coarse aggregate, two Type I portland cement brands, and several curing methods were studied. The effects of carbonation were found to be a main cause of reduced scaling resistance in slag cement concrete, as supported by trends among curing methods and by variations in the chemical composition of portland cement. For concrete cured under ambient and low-carbonation conditions, increased carbonation is correlated with an increase in the concrete's scaling loss. These experimental results supported a proposed behavioral model linking cement hydration, concrete carbonation, and deicer scaling resistance. Decreased scaling resistance in concrete cured under moist conditions did not correlate with carbonation, but was likely caused by other factors related to continuous moisture present during curing. DOI: 10.1061/(ASCE)MT.1943-5533.0000029 CE Database subject headings: Carbonation; Concrete; Durability; Freeze and thaw; Hydration; Porosity; Slag. Author keywords: Carbonation; Concrete; Durability; Freeze-thaw; Hydration; Porosity; Slag. more...

Published

2010

27. Mesoscale approach to modeling concrete subjected to thermomechanical loading

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Author

Grassl, Peter and Pearce, Chris

Subjects

Concrete -- Testing, Concrete -- Mechanical properties, Concrete -- Thermal properties, Stress analysis (Engineering) -- Methods, Stress analysis (Engineering) -- Technology application, Technology application, Science and technology

Abstract

Concrete subjected to combined compressive stresses and temperature loading exhibits compressive strains, which are considerably greater than for concrete subjected to compressive stresses alone. This phenomenon is called transient thermal creep or load induced thermal strain and is usually modeled by macroscopic phenomenological constitutive laws which have only limited predictive capabilities. In the present study a mesoscale modeling approach is proposed in which the macroscopically observed transient thermal creep results from the mismatch of thermal expansions of the mesoscale constituents. The mesostructure of concrete is idealized as a two-dimensional three-phase material consisting of aggregates, matrix, and interracial transition zones. The nonlinear material response of the phases is described by a plasticity interface model. The mesoscale approach was applied to analyze compressed concrete specimens subjected to uniform temperature histories and the analysis results were compared to experimental results reported in the literature. DOI: 10.1061/(ASCE)0733-9399(2010)136:3(322) CE Database subject headings: Concrete; Cracking; Thermal analysis; Plasticity; Strains; Load factors. Author keywords: Concrete; Cracking; Thermal analysis; Plasticity. more...

Published

2010

28. Stiffness degradation and time to cracking of cover concrete in reinforced concrete structures subject to corrosion

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Author

Zhong, Jinquan, Gardoni, Paolo, and Rosowsky, David

Subjects

Corrosion and anti-corrosives -- Research, Concrete -- Mechanical properties, Concrete -- Chemical properties, Concrete -- Testing, Stress analysis (Engineering) -- Methods, Structural analysis (Engineering) -- Methods, Science and technology

Abstract

Corrosion-induced cracks in reinforced concrete (RC) structures degrade the stiffness of the cover concrete. The stiffness degradation is mainly caused by the softening in the stress-strain relation in the cracked concrete. Limited efforts have been made to model the cracking and the corresponding effects on the cover concrete, despite of its importance in assessing and modeling the behavior of RC structures. This paper proposes a stiffness degradation factor to model the stiffness degradation of the cover concrete subject to cracking. The proposed factor is computed in terms of the cracking strain corresponding to the maximum opening of the concrete cracks based on an energy principle applied to a fractured RC structure. The time to cracking of the cover concrete is then determined as the time from the corrosion initiation needed by the crack front to reach the outer surface of the cover concrete. The proposed stiffness degradation factor and the method to compute the time to cracking are illustrated through two numerical examples. The times to cracking of the cover concrete that are predicted using the proposed method are in agreement with the measured values from laboratory experiments. DOI: 10.1061/(ASCE)EM.1943-7889.0000074 CE Database subject headings: Cracking; Energy; Corrosion; Reinforced concrete; Stiffness; Degradation; Concrete structures. Author keywords: Cracking; Cohesive crack model; Energy principle; Corrosion; Reinforced concrete; Stiffness. more...

Published

2010

29. Machine vision-based concrete surface quality assessment

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Author

Zhu, Zhenhua and Brilakis, Ioannis

Subjects

Machine learning -- Research, Concrete -- Mechanical properties, Concrete -- Testing, Image processing -- Methods, Surfaces -- Mechanical properties, Surfaces -- Testing, Surfaces (Technology) -- Mechanical properties, Surfaces (Technology) -- Testing, Materials -- Testing, Materials -- Methods, Materials -- Technology application, Technology application, Construction and materials industries, Engineering and manufacturing industries, Science and technology

Abstract

Manually inspecting concrete surface defects (e.g., cracks and air pockets) is not always reliable. Also, it is labor- intensive. In order to overcome these limitations, automated inspection using image processing techniques was proposed. However, the current work can only detect defects in an image without the ability of evaluating them. This paper presents a novel approach for automatically assessing the impact of two common surface defects (i.e., air pockets and discoloration). These two defects are first located using the developed detection methods. Their attributes, such as the number of air pockets and the area of discoloration regions, are then retrieved to calculate defects' visual impact ratios (VIRs). The appropriate threshold values for these VIRs are selected through a manual rating survey. This way, for a given concrete surface image, its quality in terms of air pockets and discoloration can be automatically measured by judging whether their VIRs are below the threshold values or not. The method presented in this paper was implemented in C+ + and a database of concrete surface images was tested to validate its performance. DOI: 10.1061/(ASCE)CO.1943-7862.0000126 CE Database subject headings: Defects; Identification; Assessment; Concrete; Imaging techniques; Information technology (IT). Author keywords: Defects; Identifications; Assessment; Concrete; Images; Imaging techniques; Information technology. more...

Published

2010

30. Nonlinear unified strength criterion for concrete under three-dimensional stress states

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Author

Du, Xiu-Li, Lu, De-Chun, Gong, Qiu-Ming, and Zhao, Mi

Subjects

Concrete -- Mechanical properties, Concrete -- Testing, Strength of materials -- Measurement, Strains and stresses -- Research, Stress relaxation (Materials) -- Research, Stress relieving (Materials) -- Research, Stress analysis (Engineering) -- Methods, Science and technology

Abstract

This paper shows that the mechanical behavior of concrete materials can be described by a nonlinear unified strength criterion which requires four independent parameters for model calibration. The criterion covers all the area from spatially mobilized plane curve in the lower bound to Mises circle in the upper bound on the deviatoric plane, with an exponential curve on the meridian plane in principal stress space. Four material parameters in the strength criterion have their clear physical meanings and their determination approaches are also given. Four sets of true triaxial experimental results are compared with the modeling results of the proposed criterion. It shows that the proposed criterion is capable to capture the characteristics of yielding and failure and reasonably calculate the multiaxis strength of concrete materials. CE Database subject headings: Concrete; Material properties; Stress; Experimentation; Strength. Author keywords: Concrete; Strength theory; Non-linear; Intermediate principal stress; Mean principal stress; True triaxial experiment. DOI: 10.1061/(ASCE)EM.1943-7889.0000055 more...

Published

2010

31. Performance dependent failure criterion for normal- and high-strength concretes

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Author

Folino, Paula, Etse, Guillermo, and Will, Adrian

Subjects

Stress analysis (Engineering) -- Methods, Failure mode and effects analysis -- Methods, Concrete -- Mechanical properties, Concrete -- Testing, Science and technology

Abstract

A new approach to describe the maximum strength criterion of concretes with different strength capacities is formulated. The proposed failure criterion incorporates the so-called 'performance parameter' ([[beta].sub.p]) that controls the dependence of the maximum strength on the concrete quality. To assure the feasibility of the solution procedure for any possible set of known data, different methods are proposed to determine [[beta].sub.p] according to the available material data. The performance dependent strength criterion presented in this work is expressed in terms of the Haigh Westergaard stress coordinates and as a function of four material parameters that fully define the compressive and tensile meridians of the failure criterion. The variation of the shear strength between these two meridians follows an earlier elliptic interpolation. The proposal includes approximating functions that define the dependence of the above mentioned four material parameters on the two fundamental mechanical properties of concrete: the uniaxial compressive strength [f'.sub.c] and the performance parameter [[beta].sub.p]. The capability of the proposed criterion to predict peak stresses of both normal- and high-strength concretes is verified with experimental data available in the literature corresponding to uniaxial, biaxial, and triaxial compression tests. DOI: 10.1061/(ASCE)EM.1943-7889.0000048 CE Database subject headings: Concrete; High-strength concrete; Failure modes; Parameters. more...

Published

2009

32. Efectividad del pretensado de la losa de hormigón en estructuras continuas mixtas de hormigón y acero

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Author

Salazar Serrano, David, Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Marí Bernat, Antonio Ricardo, and Mirambell Arrizabalaga, Enrique

Subjects

Enginyeria civil [Àrees temàtiques de la UPC], Puentes mixtos, Fluencia, Pretensado, Redistribuciones, Retracción, Concrete -- Testing, Análisis en el tiempo, Formigó -- Proves, Fisuración, Ponts mixtes

Abstract

Las estructuras mixtas trabajan de forma óptima cuando se pueden aprovechar simultánea y solidariamente la resistencia a compresión del hormigón y la resistencia a tracción del acero, tal como ocurre en vigas o puentes biapoyados. Sin embargo, cuando se trata de puentes continuos, en la zona de momentos negativos la losa está sometido a tensiones de tracción y el hormigón fisura, provocando una redistribución de tensiones y un aumento de las flechas instantáneas y diferidas. Una forma de evitar o controlar la fisuración es pretensando la losa de hormigón. En esta Tesis de Máster se evalúa la efectividad del pretensado, mediante estudios paramétricos basados en modelos numéricos, y en función del instante de aplicación, es decir, si se lleva a cabo antes o después de conectar la losa a la viga metálica y de la longitud del cable de pretensado en la losa de hormigón. Se realizan estudios tanto a nivel seccional como a nivel global de la estructura, simulando tres tipologías de puentes: sin pretensado, pretensado antes de conectar y pretensado después de conectar. Composite structures work optimally when the compressive strength of concrete and the tensile strength of steel can be used simultaneously, as occurs in simple supported beams and bridges. However, for continuous bridges, in the negative bending moment zone the slab is subjected to tensile stresses and the concrete cracks caused a redistribution of stresses and an increase in instantaneous and delayed deflections. One way to avoid or control cracking is by prestressing the concrete slab. In this Master's Thesis, the effectiveness of prestressing is evaluated by parametric studies based on numerical models, and in the function of the instant of introduction and the prestressing tendon length in slab concrete. Studies are carried out both at the sectional level and at the global level of the structure, simulating three types of bridges: without prestressed, prestressed before connecting, and prestressed after connecting. more...

Published

2021

33. Estudio de la adherencia de la armadura activa de polímeros reforzados con fibras (FRP) en elementos de hormigón pretensado

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Author

Quiñones Pardo, Giovanny Alberto, Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Oller Ibars, Eva, and Marí Bernat, Antonio Ricardo

Subjects

modelización, Enginyeria civil [Àrees temàtiques de la UPC], Polymers, Concrete -- Testing, adherencia, hormigón, Formigó -- Proves, FRP, interacción, Polímers

Abstract

Los métodos usados para la caracterización del mecanismo adherente hormigón -FRP son la experimentación con ensayos, la formulación teórica, y la modelización numérica. Sin embargo, hasta hoy en día, no se ha logrado encontrar la combinación ideal entre estos recursos que permita definir finalmente tal comportamiento; además de que usualmente la diversidad de conocimiento no es unánime y más bien es divergente. Por lo que se pretende aquí conseguir un método por el cual se unifiquen los diversos hallazgos existentes en la bibliografía, y se pueda al fin abordar adecuadamente el estudio del mecanismo de la armadura pretesa FRP y el hormigón. The methods used for the characterization of the bonding between concrete-FRP are the experimentation with tests, the theoretical formulation, and the numerical modeling. However, until today, it has not been possible to find the ideal combination between these resources that allows us to finally define such behavior; In addition, the diversity of knowledge is usually not unanimous and rather divergent. Therefore, the aim here is to achieve a method by which the various existing findings in the bibliography are unified, and the study of the mechanism of the FRP prestressed reinforcement and concrete can finally be adequately addressed. Els mètodes usats per a la caracterització de l'mecanisme adherent formigó -FRP són l'experimentació amb assajos, la formulació teòrica, i la modelització numèrica. No obstant això, fins avui dia, no s'ha aconseguit trobar la combinació ideal entre aquests recursos que permeti definir finalment aquest comportament; a més que usualment la diversitat de coneixement no és unànime i més aviat és divergent. Per la qual cosa, es pretén aquí aconseguir un mètode pel qual s'unifiquin les diverses troballes existents a la bibliografia, i es pugui a la fi abordar adequadament l'estudi de l'mecanisme de l'armadura Pretesa FRP i el formigó. more...

Published

2021

34. Tile vaults as integrated formwork for concrete shells:study of the influence of he model network in the reinforcement design

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Author

Liu, Yuanpeng, Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Roca Fabregat, Pedro, and López López, David

Subjects

Enginyeria civil [Àrees temàtiques de la UPC], Concrete -- Testing, Masonry, Formigó -- Proves, Ram de paleta

Abstract

El análisis límite extendido al caso de la mampostería reforzada (ELARM) es un método que permite diseñar y analizar hormigón armado, mampostería y láminas s compuestas bidimensionales o tridimensionales con una variedad de formas. Para el diseño de láminas de hormigón armado por ELARM, la elección aleatoria de parámetros y el diagrama de forma pueden conducir a resultados conservadores, es decir, una cantidad considerable de refuerzo. Esta investigación tiene como objetivo investigar cómo elegir los parámetros adecuados y el diagrama de forma para reducir el uso de refuerzos. En esta disertación, se propone un algoritmo para buscar los valores óptimos de la dirección de las barras de acero, la posición del refuerzo y la altura de la red de empuje para determinar la cantidad mínima de refuerzo para un diagrama de forma dado. Además, se ensayan una serie de diagramas de forma para bóvedas de diferentes geometrías bajo varios casos de carga para investigar la influencia del patrón del diagrama de forma en la cantidad de refuerzo. Los resultados revelan que, además del patrón del diagrama de forma, otros dos factores, la distribución de fuerza en el diagrama de forma y el proceso para calcular el ancho asignado en ELARM3D, también pueden afectar la cantidad de refuerzo y necesitan más investigación. Además, con base en los resultados, se proponen algunas recomendaciones para los usuarios de ELARM3D en su versión actual sobre cómo construir un diagrama de forma adecuado, lo que requiere una cantidad relativamente baja de refuerzo. Extended Limit Analysis for Reinforced Masonry (ELARM) is a method that allows to design and analyze two- or three-dimensional reinforced concrete, masonry, and composite shells of most shapes. For the design of reinforced concrete shells by ELARM, random choices of parameters and the form diagram may lead to conservative results, i.e., a considerable amount of reinforcement. This research aims to find out how to choose proper parameters and the form diagram to reduce reinforcement usage. In this dissertation, an algorithm is proposed to search for the optimal values of the steel bar direction, the reinforcement position, and the thrust network height to determine the least reinforcement amount for a given form diagram. Besides, a series of form diagrams for vaults of different geometries under various load cases are tested to investigate the influence of the form diagram’s pattern on the reinforcement amount. The results reveal that, apart from the form diagram’s pattern, other two factors, the force distribution in the form diagram and the process to calculate the assigned width in ELARM3D, may also affect the reinforcement amount and need further research. Besides, based on the results, some recommendations are provided for the users of ELARM3D of the current version on how to build a proper form diagram, which requires a relatively low amount of reinforcement. more...

Published

2021

35. Evaluación del uso en ingeniería civil y edificación de hormigones bioreceptivos

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Author

Cobos Aviles, Pablo, Segura Pérez, Ignacio, and Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental

Subjects

Hormigón bioreceptivo, colonización, Enginyeria civil [Àrees temàtiques de la UPC], algas, bioreceptividad, Concrete -- Testing, musgos, Formigó -- Proves, biofilm

Abstract

En el área tecnológica de la construcción e ingeniería civil se encuentran los hormigones bio-receptivos (HB), los cuales son materiales que están en una etapa de validación y tendencia; por sus características, tienen la capacidad de ser colonizados en su sustrato por micro-organismos como bacterias, algas, briófitos u hongos, asegurando que el crecimiento biológico no afecte a las propiedades mecánicas y durabilidad del material. Varias investigaciones han sido elaboradas con el propósito de hallar la composición ideal que garantice el comportamiento adecuado del material, pero la misma es variable en función del entorno ambiental (condiciones meteorológicas y contaminación) al que estará expuesto el material, así como el micro-organismo que se desarrolle en el sustrato del material, como bacterias, algas o briófitos. Este trabajo final de máster está enfocado en realizar una guía práctica de aplicación de hormigones bio-receptivos, así como morteros y otros materiales bio-receptivos, con los propósitos de optimizar el diseño del material, acorde a su posible zona de emplazamiento y de su empleo en cualquier tipo de subsistema que sea parte de un proyecto de construcción. La meta es que esta guía de aplicación sirva al proyectista para que pueda optar por este material, siendo complementario a otro tipo de materiales ecológicos y tendencias medio ambientales que forman parte del sector de la construcción e ingeniería civil. A futuro, se espera que los hormigones bio-receptivos tomen un mayor protagonismo, por lo que dinamizar su uso y adecuarlo con diferentes tipos de tecnologías será vital para su preferencia en los proyectos de construcción. In the technological area of construction and civil engineering there are bio-receptive concretes (BC), which are materials that are in a validation and trend stage; due to their characteristics, they have the capacity to be colonized in their substrate by micro-organisms such as bacteria, algae, bryophytes or fungi, ensuring that the biological growth does not affect the mechanical properties and durability of the material. Several researches have been elaborated with the purpose of finding the ideal composition that guarantees the adequate behavior of the material, but it’s variable depending on the environmental conditions (weather conditions and contamination) to which the material will be exposed, as well as the micro-organism that will develop on the substrate of the material, such as bacteria, algae or bryophytes. This master's thesis is focused on making a practical guide for the application of bio-receptive concretes, as well as mortars and other bio-receptive materials, with the purpose of optimizing the design of the material, according to its possible location and its use in any type of subsystem that is part of a construction project. The main goal is that this application guide will help the designer to opt for this material, being complementary to other types of ecological materials and environmental trends that are part of the construction and civil engineering sector. In the future, it’s expected that bio-receptive concretes will take on greater prominence, so it will be vital to promote their use and adapt them to different types of technologies for their preference in construction projects. more...

Published

2021

36. Bond Strength Tests under Pure Shear and Tension between Masonry and Sprayed Mortar

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Author

Albert Albareda, Dawei Huang, Oriol Pons, Universitat Politècnica de Catalunya. Doctorat en Tecnologia de l'Arquitectura, de l'Edificació i de l'Urbanisme, Universitat Politècnica de Catalunya. Departament de Tecnologia de l'Arquitectura, Universitat Politècnica de Catalunya. GAT - Grup d'Arquitectura i Tecnologia, and Universitat Politècnica de Catalunya. LiTA - Laboratori d'Innovació i Tecnologia en l'Arquitectura more...

Subjects

Concrete construction, Materials science, Concrete -- Testing, 0211 other engineering and technologies, 020101 civil engineering, 02 engineering and technology, lcsh:Technology, Article, 0201 civil engineering, 021105 building & construction, Ultimate tensile strength, Cohesion (geology), General Materials Science, shear strength, Composite material, lcsh:Microscopy, lcsh:QC120-168.85, roughness, Normal force, lcsh:QH201-278.5, lcsh:T, Bond strength, business.industry, Edificació::Materials de construcció::Formigó [Àrees temàtiques de la UPC], Edificació::Elements constructius d'edificis::Elements estructurals d'edificis [Àrees temàtiques de la UPC], Masonry, Construcció en formigó, Shotcrete, Strength of materials, adhesion strength, JRC-JCS, lcsh:TA1-2040, structure reinforcement, lcsh:Descriptive and experimental mechanics, lcsh:Electrical engineering. Electronics. Nuclear engineering, Mortar, lcsh:Engineering (General). Civil engineering (General), business, lcsh:TK1-9971, Formigó -- Proves, shotcrete

Abstract

Sprayed mortar or shotcrete is a construction technology that could enhance existing masonry buildings&rsquo, resilience by reinforcing low-safety load-bearing walls. Many factors affect the resistance of shotcrete-reinforced structures. One of the most important is the bond strength at the interface between the shotcrete and the reinforced wall. According to previous technical literature, bond strength usually has two evaluation criteria: shear and tensile strength. The experimental campaign described in this article focused on the bond strength between sprayed mortar and three masonry materials without the influence of normal force or constraint, as well as the roughness of these materials. The analysis of these tests focused on determining the relation between bond strength, roughness, and material strength. The analyses revealed that material strength has a more significant effect on bond strength than roughness, and bond strength is related to shrinkage of the materials. On the basis of previous theories, these researchers found that when there is no obvious influence due to normal force and constraint, the shear strength and tensile strength are different, and the shear strength is likely to be the cohesion force of the two materials. Finally, this article concludes with a novel logarithmic relationship between these strengths. more...

Published

2020

37. Compression field modeling of confined concrete: constitutive models

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Author

Montoya, Esneyder, Vecchio, Frank J., and Sheikh, Shamim A.

Subjects

Concrete -- Structure, Concrete -- Testing, Stress analysis (Engineering) -- Methods, Engineering and manufacturing industries, Science and technology

Abstract

It has been widely recognized that the behavior of confined concrete depends upon the level of confinement. Brittleness or ductility is a function of the state of compressive stresses, unconfined concrete strength, volumetric expansion, and concrete softening. Constitutive models for strength enhancement, concrete dilatation, and a new stress-strain relationship for concrete in triaxial compression are proposed. The load-carrying capacity of confined concrete is predicted by utilizing an Ottosen-type surface with newly developed coefficients that account for a wide range of confinement levels (lateral pressures up to 100% of the unconfined concrete strength) and unconfined concrete strengths from 20 to 130 MPa. Concrete dilatation is modeled as a function of the lateral pressure ratio and concrete strength and can reach values beyond the limit of uncompressibility. Experimental results are used to corroborate the new models at the material level, producing accurate agreement. CE Database subject headings: Concrete; Constitutive models; Triaxial compression; Stress strain relations. more...

Published

2006

38. Influence of water on Alkali-silica reaction: experimental study and numerical simulations

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Author

Poyet, Stephane, Sellier, Alain, Capra, Bruno, Thevenin-Foray, Genevieve, Torrenti, Jean-Michel, Tournier-Cognon, Helene, and Bourdarot, Eric

Subjects

Concrete -- Materials, Concrete -- Testing, Water -- Environmental aspects, Engineering and manufacturing industries, Science and technology

Abstract

Alkali-silica reaction (ASR) is a concrete pathology due to chemical reactions involving reactive silica from reactive aggregates and the inner solution of concrete. Main effects are swelling, cracking, and reduction in the mechanical properties of affected concretes. Water is very important for ASR; the more available water, the more expansion and degradation. This article presents new laws for modeling of the influence of water upon ASR. They are based on experimental results and then used to simulate results taken out of the scientific literature. CE Database subject headings: Concrete durability; Swelling; Simulation; Water; Aggregates. more...

Published

2006

39. Analysis of strength of concrete using design of experiments and neural networks

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Author

Yeh, I-Cheng

Subjects

Neural networks -- Usage, Concrete -- Testing, Strength of materials -- Testing, Neural network, Engineering and manufacturing industries, Science and technology

Abstract

This paper investigates the potential of using design of experiments and neural networks to determine the effect of fly ash replacements, from 0 to 50%, on early and late compressive strength, from 3 to 56 days, of low- and high-strength concrete, at water-cementitious material ratios in the range of 0.3-0.7. The research reported in this paper shows the following conclusions: (1) using a simplex-centroid mixture experiment design, a much smaller number of experiments need to be performed to obtain meaningful data; (2) high correlations between the compressive strength and the component composition of concrete can be developed using the generalization capabilities of the neural networks; (3) analyses of variance to test the effects of the variables and their interactions on concrete strength can be performed; (4) the strength ratio, i.e., the percentage of strength of concrete containing fly ash to strength of concrete without fly ash (pure-cement concrete) based on the same w/b and the same age, is significantly reduced as the fly ash replacement increases, is somewhat reduced as the water-binder ratio decreases, and is highly significantly reduced as the age decreases; and (5) the higher fly ash content mixes yielded lower strength ratios throughout, the difference being greater at early age and low water-binder ratio. CE Database subject headings: Concrete; Fly ash; Neural networks; Experimentation. more...

Published

2006

40. The application of time-frequency analysis to the air-coupled ultrasonic testing of concrete

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Author

Berriman, James R., Hutchins, David A., Neild, Adrian, and Purnell, Phil

Subjects

Ultrasonic testing -- Methods, Concrete -- Testing, Fourier transformations -- Analysis, Business, Electronics, Electronics and electrical industries

Abstract

Air-coupled ultrasound is used for the nondestructive evaluation (NDE) of concrete, using broad bandwidth electrostatic transducers and chirp excitation. The benefits of using time-frequency analysis in such situations, for both waveform retrieval and imaging in the presence of low signal levels. more...

Published

2006

41. Determining the tensile stress-crack opening curve of concrete by inverse analysis

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Author

de Oliveira e Sousa, Jose Luiz Antunes and Gettu, Ravindra

Subjects

Concrete -- Properties, Concrete -- Testing, Stress analysis (Engineering), Science and technology

Abstract

The determination of the fundamental stress versus crack opening ([sigma]-w) response of concrete under uniaxial tension is performed in this study through inverse analysis using data from notched beam tests. The procedure used for optimizing the parameters of the [sigma]-w relation using the load versus crack mouth opening displacement response of the notched beam is described. Satisfactory comparisons have been obtained between the [sigma]-w curves obtained through the inverse analysis and those directly measured in uniaxial tension tests. The use of weighting functions in the inverse analysis may be necessary when large crack widths are to be considered. DOI: 10.1061/(ASCE)0733-9399(2006)132:2(141) CE Database subject headings: Tensile stress; Cracking; Concrete; Tests. more...

Published

2006

42. Interaction between interfacial cavity/crack and internal crack--Part II: simulation

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Author

Prasad, P.B.N., Hasebe, Norio, and Wang, X.F.

Subjects

Loading and unloading -- Testing, Concrete -- Cracking, Concrete -- Testing, Science and technology

Abstract

This paper discusses the interaction of an interfacial cavity/crack with an internal crack in a bimaterial plane under uniform loading at infinity. The point dislocation solution is used to simulate internal crack by using the distributed dislocation technique. The resulting singular integral equation is solved numerically and the stress intensity factor variations are plotted for some cases of internal crack interacting with interfacial cavity/crack. [DOI: 10.1115/1.1876433] more...

Published

2005

43. Simulation of two-dimensional aggregate distribution with wall effect

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Author

Zheng, J.J., Li, C.Q., and Zhao, L.Y.

Subjects

Concrete -- Materials, Concrete -- Testing, Aggregates (Building materials) -- Testing, Engineering and manufacturing industries, Science and technology

Abstract

In view of the importance of the aggregate density to mechanical properties of concrete, it is necessary to determine the aggregate density at any point in concrete. Once the aggregate density is known, some other mechanical properties of the concrete can be determined based on the theory of micromechanics. The intention of this paper is to numerically simulate the distribution of aggregate particles at a cross section of a concrete element, taking into account the effect of formwork walls. Based on the study of the characteristics of the simulated aggregate distributions, a model of aggregate density is developed and its statistics are derived. Simulation results show that the average aggregate density at any point at a cross section of the concrete element converges asymptotically to a certain value when the number of simulations tends to infinity. The validity of the proposed simulation algorithm is verified by experimental results. DOI: 10.1061/(ASCE)0899-1561(2003)15:5(506) CE Database subject headings: Concrete properties; Concrete aggregates; Simulation; Density; Distribution. more...

Published

2003

44. Strength of concrete subjected to pullout load

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Author

Bortolotti, Lionello

Subjects

System failures (Engineering) -- Research, Load factor design -- Testing, Concrete -- Testing, Engineering and manufacturing industries, Science and technology

Abstract

In the present paper, the theoretical results obtained in a punching theory for concrete slabs are applied to the case of pullout failure. In order to explain the difference between the experimental loads and those predicted by the said theory a process of hardening in tension of concrete is hypothesized as being due to the small size of the reaction ring of the pullout test apparatus. The assumption is made in order to provide reliable expressions to predict the concrete strength from the pullout load. Some equations are provided to predict concrete strength from the pullout load. In order to obtain analogous expressions to confirm the theoretical results, an appropriate statistical-mathematical procedure has been performed on experimental data found in the literature, and some other equivalent equations are derived. Good agreement is found in the comparison between actual and calculated values of the main intervening variables in the problem. DOI: 10.1061/(ASCE)0899-1561(2003)15:5(491) CE Database subject headings: Pull-out resistance; Concrete slabs; Failures; Punching. more...

Published

2003

45. Nondestructive assessment of the actual compressive strength of high-strength concrete

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Author

Pascale, Giovanni, Di Leo, Antonio, and Bonora, Virna

Subjects

Concrete -- Testing, Compressibility -- Testing, Non-destructive testing -- Methods, Engineering and manufacturing industries, Science and technology

Abstract

This paper deals with nondestructive testing of high strength concrete. An experimental program was carried out, involving both destructive and nondestructive methods applied to different concrete mixtures, with cube strength varying from 30 up to 150 MPa. Relationships were derived for pulse velocity, rebound hammer, pull-out, probe penetration, microcoring, and combined methods. The results show good behavior for some methods, like pulse velocity, rebound hammer, and combined SonReb methods. By keeping the analytical form of the relationship usually adopted for normal-strength concrete unchanged, only the constants have been changed for these methods. Some problems arose with the pull-out and probe penetration tests, for which the available commercial testing systems are not adequate at very high strength levels. The relationships for the various methods were compared in terms of dimensionless sensitivity, for different strength levels. The results showed decreasing sensitivity, with increasing strength. DOI: 10.1061/(ASCE)0899-1561(2003)15:5(452) CE Database subject headings: High strength concretes; Nondestructive tests; Compressive strength. more...

Published

2003

46. Effects of mineral admixture on properties of young concrete

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Author

Jin, Xianyu and Li, Zongjin

Subjects

Concrete -- Materials, Concrete -- Testing, Engineering and manufacturing industries, Science and technology

Abstract

This paper reports the results of experimental study on the effects of mineral admixtures such as silica fume, slag, fly ash, and metakaolin, on the mechanical behavior of young concrete under either uniaxial compression or tension. The uniaxial compression and uniaxial tension tests have been conducted on the concrete specimens at ages of 1/2, 1, 2, 3, 7, and 28 days. By utilizing the circumferential control and adaptive deformation control, the complete stress-strain (deformation) curves have been obtained for young concrete under either uniaxial compression or uniaxial tension. The experimental results show that the different mineral admixtures do have different influences on properties of young concrete. Metakaolin shows the best enhancement on the mechanical properties of young concrete generally. DOI: 10.1061/(ASCE)0899-1561(2003)15:5(435) CE Database subject headings: Concrete; Admixtures; Deformation; Tension. more...

Published

2003

47. Determination of early age mortar and concrete strength by ultrasonic wave reflections

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Author

Voigt, Thomas, Akkaya, Yilmaz, and Shah, Surendra P.

Subjects

Mortar -- Testing, Non-destructive testing -- Methods, Non-destructive testing -- Evaluation, Concrete -- Testing, Ultrasonic waves -- Measurement, Engineering and manufacturing industries, Science and technology

Abstract

The in situ testing of early age concrete strength is crucial for determining the time of form removal from concrete elements, opening highways to traffic, or applying prestress to steel reinforcement. A nondestructive ultrasonic technique, which measures the reflection loss of ultrasonic transverse waves at a concrete-steel interface, is presented in this paper. The aim is to compare wave reflection measurements on mortar and concrete to strength. It is shown that the reflection loss is linearly related to the strength gain of mortar and concrete at early ages. The experiments have revealed a relationship between the homogeneity of the tested materials and the consistency of the reflection measurements. The repetition of simultaneous measurements of wave reflections and compressive strength on mortar results in similar strength-reflection loss relationships. Multiple measurements on the same concrete gave multiple strength-reflection loss relationships. The accuracy of the strength predictions made with the proposed method is discussed and compared to that of other nondestructive test methods. CE Database subject headings: Nondestructive tests; Ultrasonic tests; Compressive strength; Concrete; Mortars; Hydration; Wave reflection; Transverse waves. more...

Published

2003

48. Ultrasonic imaging of concrete elements using reconstruction by synthetic aperture focusing technique

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Author

Schickert, Martin, Krause, Martin, and Muller, Wolfgang

Subjects

Ultrasound imaging -- Methods, Ultrasound imaging -- Technology application, Ultrasound imaging -- Evaluation, Concrete -- Testing, Acoustic emission testing -- Methods, Acoustic emission testing -- Technology application, Acoustic emission testing -- Evaluation, Technology application, Engineering and manufacturing industries, Science and technology

Abstract

Ultrasonic reconstruction by the synthetic aperture focusing technique (SAFT) has a great potential to image concrete elements and detect embedded objects. Its algorithm focuses ultrasonic signals received at many aperture points by coherent superposition, yielding a high-resolution image of the region of interest. Using this approach, several problems caused by the strongly inhomogeneous structure of concrete are diminished, where scattering of transmitted pulses leads to disturbing phenomena such as attenuation and structural noise. This contribution is intended to review the work of the writers on the application of SAFT reconstruction to concrete testing. First, consequences of scattering of ultrasonic waves in concrete are qualitatively explained. Then the use of SAFT is discussed in comparison to traditional A-scan and B-scan techniques. Different reconstruction algorithms and implementations are presented for one-, two-, and three-dimensional SAFT. Pulse-echo measurement systems are described, which are able to acquire large sets of data on linear and planar apertures employing single transducer, transducer array, and scanning laser Doppler vibrometer arrangements. To illustrate the application of the SAFT techniques, examples from laboratory and field experiments are described comprising imaging of back walls, tendon ducts containing faults, layers, and reinforcement in concrete elements. CE Database subject headings: Imaging techniques; Concrete; Acoustic detection. more...

Published

2003

49. Concrete uniaxial tensile strength and cylinder splitting test

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Author

Lin, Zhuhai and Wood, Laurence

Subjects

Concrete -- Testing, Concrete -- Methods, Strength of materials -- Testing, Strength of materials -- Methods, Engineering and manufacturing industries, Science and technology

Abstract

The widely used concrete tensile strength test, the Brazilian cylinder splitting test, is analyzed using isoparametric nonlinear finite strip elements. The results of the numerical analysis suggest that the apparent tensile strength obtained from the splitting test underestimates the uniaxial tensile strength of concrete. After investigating the effects of various concrete properties and the packing strip width in the splitting test, a simple method for correcting this underestimation is established. DOI: 10.1061/(ASCE)0733-9445(2003)129:5(692) CE Database subject headings: Concrete; Tensile strength; Splitting; Finite strip method; Constitutive models. more...

Published

2003

50. Influencia de las propiedades del árido reciclado y materiales cementiceos suplementarios en las propiedades del hormigón

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Author

Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Etxeberria Larrañaga, Miren, Castillo Sotelo, Silvia, Universitat Politècnica de Catalunya. Departament d'Enginyeria Civil i Ambiental, Etxeberria Larrañaga, Miren, and Castillo Sotelo, Silvia more...

Published

2020