Comportamento estrutural de vigas mistas de aço e concreto com protensão externa

Nelsen, Anna Carolina Haiduk

11 July 2013

Made available in DSpace on 2016-06-02T20:09:18Z (GMT). No. of bitstreams: 1 5306.pdf: 6510064 bytes, checksum: b7a3095b2eb1b62ba399cfe3a2684382 (MD5) Previous issue date: 2013-07-11 / Financiadora de Estudos e Projetos / This report investigates the structural behavior, procedures for analysis and design of externally prestressed steel-concrete composite beams. Based upon the requirements outlined in ABNT NRB 8800:2008 for conventional composite beams and in the literature review, a systematic procedure was developed to design of externally prestressed steel-concrete composite beams requested the positive bending moment. Was analyzed the main modes of global collapse, especially the ultimate limit state design (ELU), which may occur in this type of structure. Also, elaborated a parametric study aimed to analyze the influence of variation in the level of prestressing and the eccentricity of tendons, as well as the constructive methodology (pretensioning and posttensioning) adopted for the the prestressing steel profile that makes up the of steel-concrete composite beam. The parametric study showed that in both methods the predominant failure mode occurs in 2nd Stage of construction. In models of composite beams analyzed with application of pretensioned when the tendon is positioned above the bottom flange of the profile steel the failure mode occurred for the combined bending and axial compression .As for the composite beams evaluated with posttensioned, independent of the position of the tendon, the failure mode occurred in function of the bending moment more than the allowable flexural strength. However, it is noted that the level of prestressing can be adequately calculated to ensure that there is no loss of carrying capacity of the structure. It was also observed that regardless of the constructive methodology adopted, higher eccentricities result in higher bearing capacity for the steel beam, as exposed in the literature review. While in Brazil is largely unexplored, there was widespread interest in the international literature on the subject in question and their variances, giving rise to theoretical and experimental. Also been mentioned as potential applications in the design of new structures and the renovation and rehabilitation of existing structures. / O presente trabalho discorre sobre o comportamento estrutural, procedimentos de análise e dimensionamento de vigas mistas de aço e concreto protendidas externamente. Embasado nas prescrições expostas na norma ABNT NRB 8800:2008 para vigas mistas convencionais e na revisão bibliográfica, um procedimento de cálculo foi desenvolvido para o dimensionamento de vigas mistas de aço e concreto protendidas externamente e solicitadas a momento fletor positivo. Foram analisados os principais modos de colapso globais, com destaque nos estados limites de últimos (ELU), que podem ocorrer nesse tipo de estrutura. Além disso, elaborou-se um estudo paramétrico que teve como objetivo analisar a influência da variação do nível de protensão e da excentricidade dos cabos de protensão; bem como da metodologia construtiva (pré-tração e pós-tração) adotada para a protensão do perfil de aço que compõe a viga mista de aço e concreto. O estudo paramétrico demonstrou que em ambas as metodologias o modo de colapso predominante ocorre na 2ª Etapa de construção. Nos modelos de vigas mistas analisados com aplicação de pré-tração quando o cabo está posicionado acima da mesa inferior do perfil de aço o modo de falha ocorreu por flexo-compressão. Já para as vigas mistas avaliadas com pós-tração, independe da posição do cabo, ocorre em função do momento fletor solicitante superar o momento fletor resistente da seção. No entanto, observa-se que o nível de protensão pode ser adequadamente dimensionado de maneira que não provoque a perda da capacidade de suporte da estrutura. Observou-se ainda que independente da metodologia construtiva adotada, maiores excentricidades resultam em maior capacidade resistente para a viga de aço, corroborando os estudos expostos na revisão bibliográfica. Embora no Brasil seja pouco explorado, observou-se um amplo interesse na literatura internacional sobre o tema em questão e suas variâncias, dando origem a pesquisas teóricas e experimentais. Também se aponta como potencialidades de aplicação em projetos de novas estruturas bem como na recuperação e reabilitação de estruturas existentes.

Estruturas metálicas

Construção mista

Protensão externa

Dimensionamento

Análise numérica

Estrutura de aço

Estrutura mista de aço e concreto

Estados Limites

Steel beam

Composite steel-concrete beam

External prestressing

Guidelines

Limit States

Monotonic and Fatigue Performance of RC Beams Strengthened with Externally Post-Tensioned CFRP Tendons

El Refai, Ahmed

January 2007

External post-tensioning is an attractive technique for strengthening reinforced concrete structures because of its ability to actively control stresses and deflections, speed of installation, minimum interruption for the existing structure, and ease of inspection under service conditions. However, external prestressing implies exposing the tendons to the environment outside the concrete section, which may lead to corrosion in steel tendons. Therefore, the interest in using fiber reinforced polymer (FRP) tendons, which are corrosion resistant, has increased. The present work investigated, experimentally and analytically, the flexural performance of reinforced concrete beams strengthened with externally post-tensioned Carbon FRP (CFRP) tendons, under monotonic and fatigue loadings. Initially, tensile fatigue tests were carried out on CFRP tendon-anchor assemblies to assess their response under repeated cyclic loads, before implementing them in the beam tests. New wedge-type anchors (Waterloo anchors) were used in gripping the CFRP specimens. The assemblies exhibited excellent fatigue performance with no premature failure occurring at the anchorage zone. The fatigue tests suggested a fatigue limit of a stress range of 10% of the tendon ultimate capacity (approximately 216 MPa). Monotonic and fatigue experiments on twenty-eight beams (152x254x3500 mm) were then undertaken. Test parameters included the tendon profile (straight and double draped), the initial loading condition of the beam prior to post-tensioning (in-service and overloading), the partial prestressing ratio (0.36 and 0.46), and the load ranges applied to the beam during the fatigue life (39% to 76% of the yield load). The CFRP tendons were post-tensioned at 40% of their ultimate capacity. The monotonic tests of the post-tensioned beams suggested that overloading the beam prior to post-tensioning increased the beam deflections and the strains developed in the steel reinforcing bars at any stage of loading. However, overloading had no significant effect on the yield load of the strengthened beam and the mode of failure at ultimate. It also had no discernable effect on the increase in the tendon stress at yielding. The maximum increase in the CFRP stress at yield load was approximately 20% of the initial post-tensioning stress, for the in-service and overloaded beams. A very good performance of the strengthened beams was observed under fatigue loading. The fatigue life of the beams was mainly governed by the fatigue fracture of the internal steel reinforcing bars at a flexural crack location. Fracture of the bars occurred at the root of a rib where high stress concentration was likely to occur. No evidence of wear or stress concentration were observed at the deviated points of the CFRP tendons due to fatigue. The enhancement in the fatigue life of the strengthened beams was noticeable at all load ranges applied. Post-tensioning considerably decreased the stresses in the steel reinforcing bars and, consequently, increased the fatigue life of the beams. The increase in the fatigue life was slightly affected by the loading history of the beams. At the same load range applied to the beam, increasing the amount of the steel reinforcing bars for the same post-tensioning level decreased the stress range in the bars and significantly increased the fatigue life of the strengthened beams. In the analytical study, a monotonic model that predicts the non-linear flexural response of the CFRP post-tensioned beams was developed and implemented into a computer program. The model takes into account the loading history of the strengthened beams prior to post-tensioning (in-service and overloading). Good agreement was obtained between the measured and the predicted monotonic results. A strain-life based fatigue model was proposed to predict the fatigue life of the CFRP post-tensioned beams. The model takes into consideration the stress-strain history at the stress raisers in the steel bars. It accounts for the inelastic deformation occurring at the ribs during cycling and the resulting changes in the local mean stresses induced. Good agreement between the experimental and predicted fatigue results was observed. A step-by-step fatigue design approach is proposed for the CFRP externally post-tensioned beams. General conclusions of the study and recommendations of future work are given.

reinforced concrete

post tensioning

external prestressing

flexure

monotonic

fatigue

strengthening

repair

rehabilitation

cyclic

overloading

damage

beam

strain life

tendon

FRP

CFRP

anchor

strengthened

service

deviator

harping

unloading

stress concentration

local stress

hysteresis

life

fatigue design

strain approach

fiber

composite

polymer

Civil Engineering