[en] PULLOUT TESTS IN TIRE REINFORCED SOIL / [pt] ENSAIOS DE ARRANCAMENTO EM SOLO REFORÇADO COM MALHAS DE PNEUS

FERNANDO AUGUSTO FERREIRA DO VALLE

03 February 2005

[pt] A utilização de pneus usados é uma técnica interessante para reforço de solos, sob o aspecto ambiental. Os pneus usados constituem uma matéria-prima abundante e de custo reduzido. A técnica de utilização de pneus em obras geotécnicas vem sendo difundida no Brasil desde meados dos anos 90, com a construção do muro experimental de solopneus da PUC-Rio, em colaboração com a Fundação Geo-Rio e a Universidade de Ottawa (Canadá). O presente trabalho tem por objetivo apresentar a metodologia para avaliação da resistência ao arrancamento de malhas de pneus. Os pneus podem ser dispostos em um plano horizontal e amarrados entre si, formando uma malha de reforço. Podem ser utilizados pneus inteiros ou com uma das bandas laterais cortadas. A sobrecarga atuando no reforço provém do confinamento provocado pela altura do aterro de solo, construído sobre a malha de pneus. Os ensaios de arrancamento dos pneus no campo utilizaram uma estrutura metálica de reação, atirantada, a qual foi desenvolvida especificamente para o programa experimental sobre reforço de solos. Os resultados permitiram idealizar um mecanismo de ruptura envolvido no processo de arrancamento das malhas de pneus, bem como a verificação das características de resistência e deformabilidade deste tipo de reforço. / [en] The use of scrap tires as soil reinforcement is an environmentally interesting technique. Scrap tires are an abundant and low cost waste material. The technique for using tires in geotechnical construction is becoming popular in Brazil since the construction of an experimental gravity wall made with soil and tires in 1995. This wall was part of a research project by carried out by PUC-Rio in collaboration with Geo-Rio and University of Ottawa. The objective of this work is to present a methodology to evaluate the pull-out behaviour of tire meshes. The tires can be placed in a horizontal plane and tied with rope or wire, forming a reinforcement mesh. The surcharge on these meshes comes from the confinement due to the height of a soil embankment built on the mesh. Field pull-out tests were performed on these reinforcement meshes, using a metallic reaction structure, which was developed specifically for this experimental research. The results allowed the idealization of a shearing mechanism based on the pull-out of tire meshes, as well as the verification of the strength and deformability characteristics of the reinforcement.

[pt] ENSAIOS DE ARRANCAMENTO

[en] PULL-OUT TESTS

[pt] SOLO REFORCADO

[en] REINFORCED SOIL

[pt] PNEUS

[en] TIRES

Bond Performance Between Ultra-High Performance Concrete and Prestressing Strands

Lubbers, Anna R.

04 December 2003

No description available.

Engineering, Civil

Ultra High Performance Concrete

Pull-out tests

Bond Strength

Bond Performance

Prestressed Concrete

RPC

[en] PULLOUT TESTS OF NAILS IN GNEISSIC RESIDUAL SOIL / [pt] ENSAIOS DE ARRANCAMENTO DE GRAMPOS EM SOLO RESIDUAL DE GNAISSE

FERNANDA OTTO SPRINGER

02 August 2006

[pt] A utilização de inclusões passivas para reforços de solos, comumente conhecida como solo grampeado, vem tendo aceitação crescente no meio geotécnico, em especial no sudeste do Brasil. Porém, esta técnica carece de estudos mais detalhados, em particular sobre a resistência ao arrancamento [qs] e sobre a influência de parâmetros tais como o tempo de cura da calda de cimento, o número de injeções, a lavagem do furo e o tipo de solo. Assim, nesta pesquisa, estudou-se o comportamento tensão- deformação-resistência de grampos sob solicitação de arrancamento, em função do método de instalação. Foram considerados grampos com e sem pré- lavagem do furo, com uma ou duas injeções de nata de cimento, com três ou dez dias de cura. Os grampos foram executados em solo residual (maduro ou jovem) e em rocha alterada de gnaisse na cidade de Niterói, RJ. Esta pesquisa apresenta uma metodologia de instrumentação de grampos. O monitoramento das deformações dos strain gages distribuídos ao longo do comprimento dos grampos forneceu ferramentas para se analisar os mecanismos de distribuição de carga e deformação dos grampos. Esta pesquisa propõe ainda uma metodologia a ser adotada em ensaios de arrancamento de grampos, enfocando-se os detalhes executivos. Alguns dos grampos ensaiados foram exumados e os resultados são apresentados, destacando-se os aspectos da superfície de arrancamento, a uniformidade do diâmetro, a presença de fissuras no grampo, e a litologia dos materiais encontrados ao longo do comprimento do grampo. Uma das principais conclusões é a de que o arrancamento de grampos re-injetados (bainha + 1 injeção) executados em solo residual maduro forneceu resistência ao arrancamento em média 37% superior à do grampo com 1 injeção (bainha). / [en] The use of passive inclusions for soil reinforcement, commonly known as soil nail, has experienced an increasing acceptance in the geothecnical projects, especially in the southeast of Brazil. However, this technique still lacks more detailed studies regarding the influence of different installation methods on the pullout resistance [qs]. This research was focused on the study of stress-strainstrength behavior of nails under pullout loading, under different installation procedures. A comprehensive series of pullout tests was carried out on nails installed in holes with and without pre-washing procedures, with one or two consecutive pre-injection steps os cement mortar and with curing time of three or ten days. Test nails were installed in residual gneissic soils with different degrees of weathering along a profile in the same slope in the city of Niterói, Brazil. This methodology developed for the instrumentation of test nails is described in detail. Several strain gages were installed on the nails, for monitoring the strain distribution along the length of the nails. Some of the tested nails were exhumed and observed in detail. This investigation reveals the aspects of the soil-nail interface, with special attention to the uniformity in diameter to the presence of fissures along the nail, and the litology of materials found along the length of the nail. One of the main findings of this experimental investigation is that the re-injection of nails in residual soil resulted in an average increase of 37% of the pullout resistance qs as compared to usual nails with no re-injection procedures. This research concludes with a proposal for a standard methodology to be adopted in nail´s pullout tests.

[pt] SOLO RESIDUAL

[en] RESIDUAL SOIL

[pt] ENSAIOS DE ARRANCAMENTO

[en] PULL-OUT TESTS

[pt] SOLOS GRAMPEADOS

[en] SOIL NAILING

[pt] INSTRUMENTACAO

[en] INSTRUMENTATION

Comportement axial des ancrages passifs scellés au rocher : étude de l’interface barre-scellement et modélisation / Axial behavior of fully grouted rockbolts : study of the bolt-grout interface and modeling

Ho, Duc An

16 January 2017

L’installation et la maintenance des ancrages passifs scellés au rocher représentent un coût important dans le budget de fonctionnement des infrastructures de transport sujettes à l’aléa rocheux. Dans ce contexte, clarifier et optimiser les méthodes de dimensionnement actuellement employées représente un enjeu fort. Or le comportement d’un ancrage passif scellé au rocher est très complexe : il fait intervenir non seulement la rupture des matériaux constituants mais également la rupture des interfaces. Par ailleurs, la résistance de l’interface barre-scellement lors de l’arrachement d’un ancrage dépend du caractère dilatant de cette interface, liée à la géométrie de la barre (verrous) et à la plastification du matériau de scellement. Le travail de cette thèse porte sur une meilleure compréhension du comportement en traction d’un ancrage passif scellé au rocher, l’objectif étant d’améliorer la conception et le dimensionnement des ancrages sollicités axialement. Premièrement, le travail a consisté à définir le comportement de l’interface barre-scellement, Pour cela, un modèle numérique a été développé afin de reproduire des essais d’arrachement, sous différentes contraintes de confinement radial, de barres d’acier de haute adhérence (HA) scellées sur une longueur de 15 cm dans un cylindre de coulis de ciment (Moosavi et al. 2005). La géométrie réelle de l’interface acier–scellement a été considérée dans le modèle. Le comportement du coulis de scellement a été représenté par un modèle de type «concrete damage plasticity» (CDP), modèle de Lubliner (1986), implémenté dans Abaqus (2012). La représentation dans une approche continue de la plastification locale et de la fissuration, a nécessité un calage pour tenir compte des effets d’échelle. Le comportement de l’interface barre-scellement a ainsi été identifié comme cohésif dommageable avec frottement, dans une bande de cisaillement de largeur entre 2 et 3 fois la hauteur des verrous. Dans l’objectif de simuler un ancrage sur le terrain, des éléments d’interface représentant le contact acierscellement (sans les verrous) ont été développés.. La performance des éléments a été testée par la modélisation d’essais réalisés par Benmokrane et al. (1995) pour des barres de HA scellées en forage dans un bloc de béton, c’est-à-dire avec des conditions-limites radiales à rigidité constante. En parallèle, afin de tester l’influence de différents paramètres (géométrie, propriétés de matériau, accessoires de mise en oeuvre) sur le comportement de l’ancrage, une campagne insitu de 36 essais d’arrachement de barres d’acier HA scellées dans un massif calcaire résistant a été réalisée. Certaines barres équipées de fibre optique ont permis d’étudier finement la mobilisation de l’interface entre la barre d’acier et le matériau de scellement lors de la sollicitation axiale. Ces observations expérimentales, comparées aux résultats de la simulation numérique des essais, ont permis de valider le modèle numérique développé et en particulier les éléments d’interface. Par ailleurs, dans nos conditions d’essais, il n’est pas noté d’effet de la longueur de scellement ou de la résistance du coulis de scellement sur la résistance de l’ancrage : la résistance est limitée par la résistance en traction de la barre d’acier. Quant à la rigidité de l’ancrage, c’est le rapport diamètre de la barre/diamètre du forage ou un coulis plus résistant qui tend à rigidifier le comportement de l’ancrage. Pour un rocher résistant et homogène, la longueur de scellement efficace est au maximum de 65cm pour les diamètres usuels de barre. Elle tend à augmenter quand le système est plus déformable : coulis de scellement moins résistant ou, pour un diamètre de barre donné, diamètre de forage plus grand. La présence de la canule d’injection ne semble pas perturber le comportement de l’ancrage. Par contre, une attention particulière doit être portée à la mise en oeuvre de la chaussette géotextile. / Fully grouted rockbolts have been used for decades for transport infrastructure exposed to rockfall hazards. However their installation and maintenance are usually costly. Therefore, understanding and optimizing of the current design method for this type of anchorage is a major challenge. This study is not simple because of the complexity of fully grouted rockbolt behavior: its failure involves not only the failure of constituent materials (rockbolt, grout, rock), but also the failure of bolt-grout and grout-rock interfaces. Moreover, the strength of bolt-grout interface depends on the interface dilatancy, which is likely linked to the geometry of ribs and to the plastification of grout material. This thesis which includes two different parts, a numerical modeling and an experimental work, contributes hence to a better understanding of fully grouted rockbolt behavior under an axial tensile load, in order to improve the current design method. Firstly the bolt-grout interface behavior in particular the force transmission between the bolt and the grout, was studied. For this purpose, a numerical model was proposed to simulate the pull-out test of a short length of 15cm of bolt grouted in a cylinder of cement hardened paste, under constant confinement pressure (Moosavi et al., 2005). In this model, the bolt-grout interface was modeled with its real geometry, including ribs. To consider the different types of behavior and failure (tension, compression and shear) of the grout, this one was modeled by the concrete damage plasticity model (CDP model), which was developed by Lubliner et al. (1986) and implemented in Abaqus (2012). Moreover, the localization of plastic strain and the fracture of grout imply different size effects, which were also taken into consideration within the calibration of the parameters of the CDP model. The bolt-grout interface behavior was also identified to be a cohesive-damage friction interface within a 2 or 3 times the height of the ribs wide shear band. From these numerical modeling results, a constitutive model for the bolt-grout interface was developed to replace the real geometry of bolt-grout contact, in order to model in-situ anchors, whose length is much longer than that of anchors in laboratory tests. The interface model was then validated by performing the numerical simulation of the pullout tests of grouted bolt in borehole drilled in concrete block, carried out by Benmokranne et al. (1995), under constant rigidity of confinement instead of constant pressure of confinement. For the second part of this study, a series of 36 pull-out field tests of fully grouted rockbolt in a rigid limestone rock wall was conducted in order to study the influence of different parameters on the behavior of rock anchors (geometry, material characteristics, accessories). Certain of the bolts equipped with optical fiber allowed bolt strains to be measured along their length, and hence, the stress mobilization along the bolt-grout interface to be studied. The comparison between experimental and numerical results permitted us to validate the numerical simulation, in particular the proposed interface model. With our field test conditions, no influence of grouting length or grout resistance on the strength of anchor was noticed and the bolt strength was limited by the tensile strength of the steel rebar. It is the ratio of bolt diameter/borehole diameter or a stronger grout that tends to stiffen anchor. In a resistant and homogeneous rock and for usual rebar diameters, the efficient grouting length is lower than 65cm. This length increases when the system is more deformable, by using a less resistant grout or a higher grout thickness. The instalation of the cannula seem not to affect the anchor’s strength. However, a particular attention must be paid to the use of the geotextile sock.

Ancrage passif

Rocher

Interface barre-scellement

Rupture

Modélisation numérique

Essais in-situ

Fully grouted rockbolt

Bolt-grout interface

Failure

Numerical modeling

In-situ pull-out tests

[en] BEHAVIOR OF GEOGRIDS IN REINFORCED SOIL WALL AND PULLOUT TESTS / [pt] COMPORTAMENTO DE GEOGRELHAS EM MURO DE SOLO REFORÇADO E EM ENSAIOS DE ARRANCAMENTO

LEONARDO DE BONA BECKER

09 August 2006

[pt] No presente trabalho foi estudado o comportamento de um muro de solo reforçado com 5m de altura e 1700m de extensão, construído como parte do dique que compõe o Depósito de Resíduos de Bauxita 7 da ALCOA Alumínio S.A. em Poços de Caldas, MG. Neste muro foram empregados um solo residual siltoargiloso obtido no local e geogrelhas. O muro foi instrumentado para medição de deslocamentos horizontais e verticais durante a construção. Na mesma área, também foi construído um aterro experimental de 2,6m de altura que permitiu a realização de 16 ensaios de arrancamento de grandes dimensões. Foram realizados ensaios de laboratório para definir os parâmetros de resistência e deformabilidade do solo. Os parâmetros obtidos foram empregados em simulações numéricas da construção do muro e dos ensaios de arrancamento pelo Método dos Elementos Finitos, utilizando-se o programa PLAXIS 2D v.8. Os resultados obtidos demonstraram que os deslocamentos ocorridos durante a construção do muro são comparáveis a valores reportados por outros autores. As previsões numéricas da construção do muro e dos ensaios de arrancamento apresentaram boa concordância com os resultados medido em campo. Constatou- se que a resistência ao arrancamento obtida foi superior às previsões baseadas em formulações tradicionais da literatura. / [en] The behavior of a 5m high and 1700m long reinforced soil wall was studied in this work. The wall constitutes the upper part of a dike constructed in Poços de Caldas-MG, Brazil, by Alcoa Aluminum S.A. to contain Bauxite residues. The wall was constructed using geogrids and a residual silty-clay. Two wall sections were instrumented. Horizontal and vertical displacements were monitored during construction. An 2.6m high experimental fill was constructed to conduct 16 large-scale pullout tests. Soil laboratory tests were conducted to define the strength and deformability parameters. The construction of the wall and the pullout tests were simulated using the PLAXIS 2D v.8 Finite Element Method code. The numeric predictions agree well with the field results. The measured horizontal displacements show good agreement with results reported by other authors and the pullout resistance was found to be greater than the values estimated by traditional methods.

[pt] GEOSSINTETICOS

[en] GEOSYNTHETICS

[pt] ENSAIOS DE ARRANCAMENTO

[en] PULL-OUT TESTS

[pt] METODO DOS ELEMENTOS FINITOS

[en] FINITE ELEMENT METHOD

[pt] GEOGRELHA

[en] GEOGRID

[pt] MONITORAMENTO

[en] MONITORING

Comportement mécanique et durabilité de structures en béton renforcées par des armatures composites internes / Mechanical behaviour and durability of concrete structures reinforced by internal composite rebars

Rolland, Arnaud

27 March 2015

La corrosion des armatures constitue la principale cause de dégradation des ouvrages en béton armé, et occasionne des coûts élevés de maintenance/réparation. Pour prévenir ce problème sur ouvrages neufs, une solution consiste à renforcer les structures en béton par des armatures non-métalliques de type Polymère Renforcé de Fibres (PRF), généralement à base de fibres de verre, de carbone ou d'aramide. Il existe aujourd'hui plusieurs textes réglementaires consacrés aux armatures PRF, notamment aux USA, au Canada et au Japon, et de nombreux ouvrages en béton armé par barres en PRF ont d'ailleurs été construits dans ces pays. Cependant, si l'utilisation de ces nouvelles armatures semble à priori prometteuse, elle suscite encore des réserves de la part des maîtres d'ouvrages, notamment en France. Il subsiste en effet des incertitudes sur le comportement à long terme des structures renforcées par PRF, et plus particulièrement sur la durabilité en milieu alcalin des armatures à matrice vinylester ou époxy renforcée par des fibres de verre (PRFV), qui sont actuellement les plus utilisées, ou encore sur le vieillissement de l'interface PRF/béton. Dans ce contexte, la présente étude vise à développer pour la première fois en France, un ensemble de méthodologies permettant, d'une part, de caractériser les principales propriétés physiques, mécaniques et d'interface des différentes armatures en PRF disponibles sur le marché, mais également d'évaluer la durabilité d'armatures en PRFV (les plus représentatives du marché) et de l'interface PRFV/béton à travers des procédures pertinentes de vieillissements accélérés. La première partie de l'étude a donc été consacrée à la caractérisation physique et mécanique d'une sélection d'armatures du commerce, confectionnées à base de fibres de verre, de carbone ou d'aramide, et au comportement mécanique de l'interface entre ces PRF et le béton. Outre la caractérisation microstructurale des PRF par techniques de microscopie et d'analyse thermique, la mise en place de dispositifs d'essais de traction et de flexion 3 points à appuis rapprochés (Short-beam test) a permis d'accéder respectivement aux propriétés mécaniques en traction (module d'élasticité, résistance) et à la résistance au cisaillement inter-laminaire des armatures. Des essais spécifiques d'arrachement (Pull-out) ont ensuite permis d'évaluer l'influence de différents paramètres (type de fibre, diamètre et géométrie de surface des barres) sur le mécanisme de transfert d'effort à l'interface armature/béton. Une grande originalité de l'approche proposée réside dans l'instrumentation d'une partie des corps d'épreuve par des capteurs de déformation à fibre optique disposés au niveau de l'interface armature/béton ; ce dispositif de mesures réparties permet d'accéder à des informations locales comme le profil des déformations de traction de l'armature, et d'en déduire la longueur d'ancrage des différentes armatures dans le béton. En complément de l'étude expérimentale précédente, un travail de modélisation analytique et numérique a été initié en vue de simuler les essais d'arrachement et d'appréhender plus finement les mécanismes d'interface mis en jeu entre l'armature et le béton lors de ces essais. Dans cette optique, un modèle analytique d'interface a tout d'abord été proposé, puis introduit dans un modèle aux éléments finis (modèle d'endommagement de zones cohésives). Enfin, un protocole de vieillissement accéléré a été appliqué à des barres en PRFV seules ou noyées dans un milieu cimentaire. Les caractéristiques résiduelles des armatures et des interfaces ont été évaluées à différentes échéances de vieillissement (jusqu'à 240 jours). Hormis une diminution des propriétés mécaniques des barres soumises à une immersion directe en solution alcaline, cette condition pouvant être considérée comme très sévère par rapport aux conditions de service, il n'a pas été observé de dégradation des propriétés d'adhérence PRF/béton par rapport à l'état initial / Corrosion of the steel reinforcing bars (rebars) is the main process involved in the degradation of reinforced concrete (RC) structures, and has large repercussions on the maintenance/reparation expenses. To prevent such degradations on new infrastructures, the use of corrosion-free reinforcements, such as Fiber Reinforced Polymer (FRP) bars based on glass, carbon or aramid fibers, is gaining interest. Specific guidelines are already available in several countries (USA, Canada or Japan for instance), that define the design principles and good practices for this type of internal rebars; beside, many FRP RC structures have been built and are in service in these countries. Although the development of these new reinforcing bars is quite promising, infrastructures owners are still reluctant for their wide-scale use, especially in France. There are still major concerns regarding the long term behavior of FRP RC structures, and more particularly, the durability of glass fibers reinforced polymers (GFRP) when subjected to an alkaline environment, and the ageing behavior of the GFRP/concrete bonding as well. In this context, the present study aims at developing for the first time in France, a set of methodologies that allows : to characterize the main physical/mechanical properties of different types of FRP bars from the marketto assess the durability of GFRP bars (the most common type of bar) and their interface with concrete through relevant accelerated ageing procedures. The first part of this study was thus devoted to the physical/mechanical characterization of a selection of commercially available FRP rebars, based on glass, carbon or aramid fibers, and to the mechanical behavior of corresponding FRP/concrete interfaces. Beside the microstructural characterization of the various FRP materials by microscopy and thermal analysis techniques, tensile and short beam tests were developed in order to determine the tensile properties (Young's modulus and strength) and the interlaminar shear strength (ILSS) of the bars. Specific pull-out tests then made it possible to evaluate the influence of several parameters (type of fibers, diameter and surface geometry of the bars) on the mechanism of load transfer at the bar/concrete interface. A main originality of the proposed approach relied on the instrumentation of several test bodies by optical fiber strain sensors, which were installed along the bar/concrete interface. Such a distributed measurement system provided local information in the form of tensile strain profiles of the bars along the interface, and made it possible to determine the effective transfer length of the various types of FRP bars. As a complement to the previous experimental study, an analytical and numerical modeling work was initiated to simulate the pull-out tests and investigate more closely the interfacial mechanisms involved in the FRP bar/concrete bond behavior. In this line, an improved interface model was first proposed, which was then implemented in a finite element model (cohesive zone model formulated in the context of damage mechanics).Finally, an accelerated ageing protocol was developed and applied to the GFRP bars, either alone or embedded in a concrete medium. The retention properties of both bars and interfaces were determined after various periods of exposure (up to 240 days). Except a drop of tensile properties observed for GFRP bars that were directly immersed in an alkaline solution, which is considered as a very severe environment compared to actual service conditions, no significant loss of interfacial properties was detected on aged specimens compared to the initial state

Armatures composites

Caractérisation mécanique et physique

Test d’arrachement

Modélisation

Fibre optique

Vieillissement accéléré

FRP bars

Physical and mechanical characterization

Pull-Out tests

Modeling

Optical fiber sensors

Accelerated ageing

Avaliação do comportamento estrutural de vigas de concreto armado com taliscas de bambu reforçadas nos nós / Evaluation of the structural behavior of reinforced concrete beams with bamboo splints strengthened in nodes

Tsutsumoto, Nayra Yumi [UNESP]

05 August 2016

Submitted by Nayra Yumi Tsutsumoto null (nayrayumi@hotmail.com) on 2016-09-29T18:00:17Z No. of bitstreams: 1 DISSERTAÇÃO FINAL_v8_NAYRA YUMI TSUTSUMOTO.pdf: 8569526 bytes, checksum: 3ea70e3054ae638bf10e3a3b63a9c642 (MD5) / Approved for entry into archive by Juliano Benedito Ferreira (julianoferreira@reitoria.unesp.br) on 2016-10-03T20:17:48Z (GMT) No. of bitstreams: 1 tsutsumoto_ny_me_ilha.pdf: 8569526 bytes, checksum: 3ea70e3054ae638bf10e3a3b63a9c642 (MD5) / Made available in DSpace on 2016-10-03T20:17:48Z (GMT). No. of bitstreams: 1 tsutsumoto_ny_me_ilha.pdf: 8569526 bytes, checksum: 3ea70e3054ae638bf10e3a3b63a9c642 (MD5) Previous issue date: 2016-08-05 / O bambu é uma planta renovável, perene, tropical e que apresenta uma série de vantagens, tais como: crescimento rápido, elevada resistência mecânica, grande versatilidade, beleza, e não necessita do replantio de colmos. Certamente, fica evidente que o bambu é um material de grande potencial, para diversos setores, sobretudo da construção civil, em que o mesmo vem sendo utilizado desde os tempos mais remotos. Nas estruturas de concreto, o bambu tem sido estudado como um elemento passível de resistir aos esforços de tração. Entretanto, como desvantagens, o bambu é um material orgânico e higroscópico. Após a concretagem, durante a cura do concreto, o bambu absorve água e, consequentemente, tem suas dimensões aumentadas. Com o concreto endurecido, o bambu começa a perder a água absorvida e se retrai, sofrendo uma redução de seu volume, o que diminui a eficiência da aderência entre os materiais. Outra desvantagem do bambu é a região do nó, cuja resistência à tração é muito inferior à da região internodal. O presente trabalho tem como principal objetivo avaliar o comportamento estrutural de vigas de concreto armado, sem e com reforço adicional de taliscas de bambu, por meio de ensaios de flexão. As taliscas de bambu utilizadas como reforço adicional à armadura são de dois tipos: com e sem reforços nas regiões nodais. Com o intuito de analisar a condição de aderência entre a talisca de bambu e o concreto, foram realizados ensaios de arrancamento. As taliscas foram elaboradas a partir de colmos da espécie Bambusa vulgaris, disponível na cidade de Ilha Solteira, algumas com e outras sem reforços nas regiões nodais. Todas as taliscas foram impermeabilizadas com látex de seringueira. Para a colagem dos reforços nos nós das taliscas, foi utilizada uma resina poliuretana bicomponente à base de óleo de mamona. As taliscas com reforços colados apresentaram um aumento da resistência à tração. Com relação ao ensaio de arrancamento, a existência do reforço nos nós permitiu acréscimos em relação à tensão normal, provocando a ruptura da talisca e não o seu escorregamento. Quanto ao ensaio de flexão das vigas, concluiu-se que a presença das taliscas de bambu aumentou a capacidade resistente das vigas e, portanto, poderia se pensar na redução da quantidade de aço a ser utilizado. O reforço nos nós das taliscas de bambu proporcionou um melhor comportamento com relação às flechas e um discreto aumento na capacidade resistente das vigas. No que diz respeito ao padrão de fissuração, observou-se que a ruptura das vigas ocorreu na região central, região submetida aos maiores momentos fletores, e, embora as vigas com reforço adicional de taliscas de bambu reforçadas nos nós tenham apresentado maior número de fissuras, aparentemente, o padrão de fissuração foi basicamente o mesmo para todas as vigas ensaiadas. / Bamboo is a renewable, perennial and tropical plant, and that presents a number of advantages, such as: growth quickly, high mechanical resistance, versatility, beauty, and does not require the replanting of culms. Certainly it is clear that bamboo is a great potential material for various industries, especially construction, in which it has been used since ancient times. In concrete structures, bamboo has been studied as an element capable of resisting the traction efforts. However, as disadvantages, bamboo is an organic and hygroscopic material. After the concrete, during curing of the concrete, bamboo absorbs water and, therefore, has increased their dimensions. With the hardened concrete, bamboo begins to lose water absorbed and retracts suffering a reduction of its volume, which decreases the efficiency of adhesion between the materials. Another disadvantage of bamboo is the node region, whose tensile strength is much lower than the internode region. This study has as main objective to evaluate the structural behavior of reinforced concrete beams, with and without additional reinforcement bamboo splints through bending tests. The bamboo splints used as additional reinforcement to armor are of two types: with and without reinforcements in the node regions. In order to examine the condition of adhesion between the concrete and bamboo splint pull out tests were done. The splints were prepared from culms of Bambusa vulgaris species, available in the city of Ilha Solteira, some with and some without reinforcements in the node regions. All splints were coated with rubber trees latex. For bonding reinforcements in nodes of splints, we used a two-component polyurethane resin oil-based of castor plant. Samples with glued reinforcements showed an increase in the tensile strength. Regarding the pull out test, the existence of reinforcement in the nodes allowed increases in relation to normal tension, causing the rupture of splint and not its slipping. As for the bending test of the beams, it is concluded that the presence of bamboo splints increased bearing capacity of the beams and, therefore, could think of reducing the amount of steel to be used. Strengthening the nodes of bamboo splints provide better performance with respect to deflections and a slight increase in resitente capacity of beams. With regard to the crack pattern, it was observed that the breakage of the beams occurred in the central region, region subjected to higher bending moments, and, although the beams with additional reinforcement bamboo splints reinforced in the nodes had a higher number of cracks, apparently, the crack pattern was essentially the same for all tested beams.

Bambu

Concreto

Aderência

Vigas

Tração

Ensaios de arrancamento

Ensaios de flexão

Látex

Bamboo

Concrete

Bond

Beams

Tensile

Pull out tests

Bending tests

Latex rubber

Avaliação do comportamento estrutural de vigas de concreto armado com taliscas de bambu reforçadas nos nós /

Tsutsumoto, Nayra Yumi

January 2016

Orientador: José Luiz Pinheiro Melges / Resumo: O bambu é uma planta renovável, perene, tropical e que apresenta uma série de vantagens, tais como: crescimento rápido, elevada resistência mecânica, grande versatilidade, beleza, e não necessita do replantio de colmos. Certamente, fica evidente que o bambu é um material de grande potencial, para diversos setores, sobretudo da construção civil, em que o mesmo vem sendo utilizado desde os tempos mais remotos. Nas estruturas de concreto, o bambu tem sido estudado como um elemento passível de resistir aos esforços de tração. Entretanto, como desvantagens, o bambu é um material orgânico e higroscópico. Após a concretagem, durante a cura do concreto, o bambu absorve água e, consequentemente, tem suas dimensões aumentadas. Com o concreto endurecido, o bambu começa a perder a água absorvida e se retrai, sofrendo uma redução de seu volume, o que diminui a eficiência da aderência entre os materiais. Outra desvantagem do bambu é a região do nó, cuja resistência à tração é muito inferior à da região internodal. O presente trabalho tem como principal objetivo avaliar o comportamento estrutural de vigas de concreto armado, sem e com reforço adicional de taliscas de bambu, por meio de ensaios de flexão. As taliscas de bambu utilizadas como reforço adicional à armadura são de dois tipos: com e sem reforços nas regiões nodais. Com o intuito de analisar a condição de aderência entre a talisca de bambu e o concreto, foram realizados ensaios de arrancamento. As taliscas foram elaboradas a parti... (Resumo completo, clicar acesso eletrônico abaixo) / Mestre

Bambu.

Concreto.

Aderência

Vigas.

Tração

Ensaios de arrancamento

Ensaios de flexão

Latex.

Bamboo

Concrete

Bond

Vigas.

Tensile

Pull out tests

Bending tests

Latex rubber

Comportement mécanique et durabilité de structures en béton renforcées par des armatures composites internes / Mechanical behaviour and durability of concrete structures reinforced by internal composite rebars

Rolland, Arnaud

27 March 2015

La corrosion des armatures constitue la principale cause de dégradation des ouvrages en béton armé, et occasionne des coûts élevés de maintenance/réparation. Pour prévenir ce problème sur ouvrages neufs, une solution consiste à renforcer les structures en béton par des armatures non-métalliques de type Polymère Renforcé de Fibres (PRF), généralement à base de fibres de verre, de carbone ou d'aramide. Il existe aujourd'hui plusieurs textes réglementaires consacrés aux armatures PRF, notamment aux USA, au Canada et au Japon, et de nombreux ouvrages en béton armé par barres en PRF ont d'ailleurs été construits dans ces pays. Cependant, si l'utilisation de ces nouvelles armatures semble à priori prometteuse, elle suscite encore des réserves de la part des maîtres d'ouvrages, notamment en France. Il subsiste en effet des incertitudes sur le comportement à long terme des structures renforcées par PRF, et plus particulièrement sur la durabilité en milieu alcalin des armatures à matrice vinylester ou époxy renforcée par des fibres de verre (PRFV), qui sont actuellement les plus utilisées, ou encore sur le vieillissement de l'interface PRF/béton. Dans ce contexte, la présente étude vise à développer pour la première fois en France, un ensemble de méthodologies permettant, d'une part, de caractériser les principales propriétés physiques, mécaniques et d'interface des différentes armatures en PRF disponibles sur le marché, mais également d'évaluer la durabilité d'armatures en PRFV (les plus représentatives du marché) et de l'interface PRFV/béton à travers des procédures pertinentes de vieillissements accélérés. La première partie de l'étude a donc été consacrée à la caractérisation physique et mécanique d'une sélection d'armatures du commerce, confectionnées à base de fibres de verre, de carbone ou d'aramide, et au comportement mécanique de l'interface entre ces PRF et le béton. Outre la caractérisation microstructurale des PRF par techniques de microscopie et d'analyse thermique, la mise en place de dispositifs d'essais de traction et de flexion 3 points à appuis rapprochés (Short-beam test) a permis d'accéder respectivement aux propriétés mécaniques en traction (module d'élasticité, résistance) et à la résistance au cisaillement inter-laminaire des armatures. Des essais spécifiques d'arrachement (Pull-out) ont ensuite permis d'évaluer l'influence de différents paramètres (type de fibre, diamètre et géométrie de surface des barres) sur le mécanisme de transfert d'effort à l'interface armature/béton. Une grande originalité de l'approche proposée réside dans l'instrumentation d'une partie des corps d'épreuve par des capteurs de déformation à fibre optique disposés au niveau de l'interface armature/béton ; ce dispositif de mesures réparties permet d'accéder à des informations locales comme le profil des déformations de traction de l'armature, et d'en déduire la longueur d'ancrage des différentes armatures dans le béton. En complément de l'étude expérimentale précédente, un travail de modélisation analytique et numérique a été initié en vue de simuler les essais d'arrachement et d'appréhender plus finement les mécanismes d'interface mis en jeu entre l'armature et le béton lors de ces essais. Dans cette optique, un modèle analytique d'interface a tout d'abord été proposé, puis introduit dans un modèle aux éléments finis (modèle d'endommagement de zones cohésives). Enfin, un protocole de vieillissement accéléré a été appliqué à des barres en PRFV seules ou noyées dans un milieu cimentaire. Les caractéristiques résiduelles des armatures et des interfaces ont été évaluées à différentes échéances de vieillissement (jusqu'à 240 jours). Hormis une diminution des propriétés mécaniques des barres soumises à une immersion directe en solution alcaline, cette condition pouvant être considérée comme très sévère par rapport aux conditions de service, il n'a pas été observé de dégradation des propriétés d'adhérence PRF/béton par rapport à l'état initial / Corrosion of the steel reinforcing bars (rebars) is the main process involved in the degradation of reinforced concrete (RC) structures, and has large repercussions on the maintenance/reparation expenses. To prevent such degradations on new infrastructures, the use of corrosion-free reinforcements, such as Fiber Reinforced Polymer (FRP) bars based on glass, carbon or aramid fibers, is gaining interest. Specific guidelines are already available in several countries (USA, Canada or Japan for instance), that define the design principles and good practices for this type of internal rebars; beside, many FRP RC structures have been built and are in service in these countries. Although the development of these new reinforcing bars is quite promising, infrastructures owners are still reluctant for their wide-scale use, especially in France. There are still major concerns regarding the long term behavior of FRP RC structures, and more particularly, the durability of glass fibers reinforced polymers (GFRP) when subjected to an alkaline environment, and the ageing behavior of the GFRP/concrete bonding as well. In this context, the present study aims at developing for the first time in France, a set of methodologies that allows : to characterize the main physical/mechanical properties of different types of FRP bars from the marketto assess the durability of GFRP bars (the most common type of bar) and their interface with concrete through relevant accelerated ageing procedures. The first part of this study was thus devoted to the physical/mechanical characterization of a selection of commercially available FRP rebars, based on glass, carbon or aramid fibers, and to the mechanical behavior of corresponding FRP/concrete interfaces. Beside the microstructural characterization of the various FRP materials by microscopy and thermal analysis techniques, tensile and short beam tests were developed in order to determine the tensile properties (Young's modulus and strength) and the interlaminar shear strength (ILSS) of the bars. Specific pull-out tests then made it possible to evaluate the influence of several parameters (type of fibers, diameter and surface geometry of the bars) on the mechanism of load transfer at the bar/concrete interface. A main originality of the proposed approach relied on the instrumentation of several test bodies by optical fiber strain sensors, which were installed along the bar/concrete interface. Such a distributed measurement system provided local information in the form of tensile strain profiles of the bars along the interface, and made it possible to determine the effective transfer length of the various types of FRP bars. As a complement to the previous experimental study, an analytical and numerical modeling work was initiated to simulate the pull-out tests and investigate more closely the interfacial mechanisms involved in the FRP bar/concrete bond behavior. In this line, an improved interface model was first proposed, which was then implemented in a finite element model (cohesive zone model formulated in the context of damage mechanics).Finally, an accelerated ageing protocol was developed and applied to the GFRP bars, either alone or embedded in a concrete medium. The retention properties of both bars and interfaces were determined after various periods of exposure (up to 240 days). Except a drop of tensile properties observed for GFRP bars that were directly immersed in an alkaline solution, which is considered as a very severe environment compared to actual service conditions, no significant loss of interfacial properties was detected on aged specimens compared to the initial state

Armatures composites

Caractérisation mécanique et physique

Test d’arrachement

Modélisation

Fibre optique

Vieillissement accéléré

FRP bars

Physical and mechanical characterization

Pull-Out tests

Modeling

Optical fiber sensors

Accelerated ageing

Vývoj a hodnocení nové necementované revizní acetabulární komponenty totální endoprotézy kyčelního kloubu / typ TC / / Development and evaluation of new cementless revision acetabular components for total hip arthroplasty / type TC /

Šťastný, Eduard

January 2014

Development and evaluation of new cementless revision acetabular components for total hip arthroplasty / type TC / Objective: The aim of the clinical part of the study was to introduce a new revision oval cup type TC, and evaluate its reliability and utility in revision endoprosthesis. Due to the different structure of the implant, we aimed to objectively demonstrate the remodeling of bone tissue in its vicinity. In the experimental part of the work we verified the hypothesis that the use of locking screws has an effect on the bond strength of the implant with bone tissue, and therefore on the primary stability of the acetabular component. Method: We evaluated 31 patients that underwent revision hip surgery between 2004 and 2008. The mean follow-up was 7.1 years (range 5.3 to 9.3 years, minimum 5 years after surgery). Osteointegration of the implant and remodeling of bone tissue around the implant and its ribs were evaluated by digital radiography and computed tomography, and clinical results according to Harris. The experiment was based on the execution of pull-out tests after the implantation of TC cups in cadaveric bovine pelves. We evaluated the dependence of tensile forces in the axis of the implant on extraction of the metal cup from the bone bed. Four tests were conducted with the cup fixed...