Interaktion gemischter Bewehrungen bei der Verstärkung von Stahlbeton mit textilbewehrtem Beton

Weiland, Silvio, Curbach, Manfred

03 June 2009

Textile Bewehrungen stellen eine hervorragende Alternative zu bisherigen Verstärkungsmethoden dar. Die Wirksamkeit von Textilbetonverstärkungen konnte bereits eindrucksvoll nachgewiesen werden. Um sowohl die vorhandene Bausubstanz, als auch die Verstärkung optimal auszulasten, ist es erforderlich, das Zusammenwirken beider Bewehrungsarten unter Berücksichtigung der unterschiedlichen Verbundeigenschaften zu beschreiben. In diesem Beitrag wird das gemeinsamen Tragverhalten von Betonstahl und textiler Bewehrung eingehend erläutert. Zur Veranschaulichung wird daher vor allem die Verbundtragwirkung und deren Einfluss auf gerissene Zugglieder genauer untersucht.

Stahlbetonbauteil

textilbewehrter Beton

Biegeverstärkung

Textilbetonverstärkung

Verbundverhalten

gemischte Bewehrung

Zusammenwirken

Kraftaufteilung

rc-member

textile reinforced concrete

flexural strengthening

trc-strengthening

bond characteristic

mixed reinforcement

interaction

load distribution

ddc:620

rvk:ZI 2000

Interaktion von Betonstahl und textiler Bewehrung bei der Biegeverstärkung mit textilbewehrtem Beton / Flexural Strengthening of RC-Structures by Textile Reinforced Concrete - Interaction between steel and textile reinforcement

Weiland, Silvio

10 June 2010

Textilbewehrter Beton zur Verstärkung von Stahlbetonbauteilen ist neben den klassischen und etablierten Verfahren eine äußerst interessante Alternative, die die Vorteile der leichten Kohlenstofffaserklebeverstärkungen mit denen von Spritzbeton mit Bewehrung verbindet. Aus den theoretischen und experimentellen Untersuchungen in dieser Arbeit können wichtige Erkenntnisse zum gemeinsamen Tragverhalten von Betonstahl und textiler Bewehrung sowie zu den Auswirkungen der verbundbedingten Unterschiede abgeleitet werden. Mit den theoretischen Betrachtungen werden das gemeinsame Tragverhalten und der Einfluss des unterschiedlichen Verbundverhaltens auf die Zugkraftaufteilung gezeigt und qualifiziert. Die Behandlung der verbundbedingten Unterschiede bei gemischt mit Betonstahl und Textil bewehrten Zuggliedern ist analog dem Vorgehen bei gemischter Beton- und Spannstahlbewehrung bzw. Klebebewehrung mit Verbundbeiwerten darstellbar. Zur Ableitung entsprechender Kennwerte werden verschiedene Möglichkeiten diskutiert. Zudem wird eine vereinfachte Bemessung vorgeschlagen. Insgesamt sind die Ergebnisse ein wesentlicher Schritt auf dem Weg zur baupraktischen Anwendung von Textilbetonverstärkungen und ermutigen bereits zum umsichtigen Einsatz unter Beachtung der Sicherheitsaspekte. Noch offene Fragen und notwendiger Klärungsbedarf sollten die Wissbegier anregen und vertiefende Forschungsvorhaben und weitere experimentelle Untersuchungen ermöglichen. / Textile reinforcement represents an excellent alternative to existing techniques for strengthening of concrete structures, combining the benefits of lightweight fiber reinforced polymer strengthening with those of shotcrete with reinforcement. The theoretical and experimental studies in this thesis provide essential insights into the common load bearing behaviour of reinforcing steel and textile reinforcements as well as on the impact of the different bond characteristics of both types of rein-forcement. With the theoretical investigations, the combined load bearing behaviour and the influence of the different bond characteristics on distribution of the forces could be shown and qualified. The inter-action of both reinforcement types, taking into account the different bond characteristics, can be represented by bond coefficients analogous to the approach to mixed steel and pre-stressing-steel reinforcements. So as to derive the appropriate parameters, several options were discussed. Moreover, a simplified approach to design a TRC-strengthening-layer was proposed. Overall, the results are an essential step towards the practical application of textile reinforced con-crete for the strengthening of concrete structures and should already be encouraging the prudent use while considering the necessary safety aspects. Remaining issues and necessary clarifications should stimulate curiosity and in-depth research projects and allow further experimental studies.

Stahlbeton

textilbewehrter Beton

Plattenversuche

Biegeverstärkung

Textilbetonverstärkung

gemischte Bewehrung

Zusammenwirken

Verbundunterschiede

Kraftaufteilung

Bemessung

rc-member

textile reinforced concrete (trc)

slab tests

flexural strengthening

trc-strengthening

mixed reinforcement

interaction

different bond characteristics

load distribution

design

ddc:690

rvk:ZI 7120

Performance evaluation of RC flexural elements strengthened by advanced composites

Andreou, Eftychia

January 2002

The flexural performance of composite systems made of reinforced concrete, Fibre Reinforced Polymers (FRPs) and adhesives was studied during the current research. The experimental investigation was principally concentrated on the potential use of Kevlar® 49 (aramid fibre) for RC beam strengthening. The main aims of research have been; (a) to investigate the relative merits of using Aramids in comparison to other FRPs, (b) strength optimisation of systems to prevent excessive losses of ductility, (c) to examine the failure mode and crack patterns, together with salient strength factors at ultimate limit state and (d) to carry out analytical modelling using a commercial FE package. The experimental investigation comprised of testing 55 simply supported RC beams of either 1.5m or 2.6m length. In addition to the parametric studies included in points (a)-(d) above (to assess the section characteristics), further experimentation was conducted to investigate the beam performance by varying the factors of; (e) beam shear span, (f) FRP anchorage length, (g) concrete surface preparation, (h) FRP end-anchoring, (i) beam precracking, (j) introduction of air-voids within the bond line of FRP/concrete, (k) influence of cyclic loading and, (1) exposure to aggressive environment. The results from current tests confirm elements of reports from other researchers (by thorough review of literature) that all FRPs have great potential for flexural strengthening of RC members. This is valid even in cases where additional environmental degradation and/or cracking (due to serviceability loads), had taken place. Aramid fibres were found to result in favourable outcomes concerning both strength and ductility enhancements. It was determined, both from experiments and non-linear modelling, that the amount of FRP fibre content is an important factor in every strengthening application. Experimentation showed that depending on the existing condition of the structure (concrete strength, internal reinforcement ratio, section dimensions, degradation level and load configuration), there seems to be a unique level of optimum fibre content. The FRP levels in excess of the optimum were seen to lead to premature brittle tearing-off failure modes. It was also found that to prevent premature beam failure (due to incompatibility of stress at concrete and FRP interface), a maximum possible anchorage length should be considered in order to deliver an optimum section performance. The results from the analytical modelling indicated a most satisfactory agreement with the experimental data after the initial mechanical properties were calibrated. It was found that actual representation of material properties (e.g. steel constitutive law) are of great significance, for an accurate modelling of RC element loaded behaviour. The bond developed between the FRP and concrete is one of the key parameters for achieving good performance of the systems. It was determined that concrete surface preparation and priming is beneficial, while the introduction of air-voids due to poor workmanship can reduce the section load bearing capabilities. Cyclic loading on FRP strengthened sections was found to curtail the full rotational capacity utilisation of the beam. However, even the above mentioned curtailed behaviour was more advantageous than cyclically loaded beam performance without FRP strengthening.

668.9

Experimentální a numerická analýza zesílení ŽB prvku na ohyb / Experimental and numerical analysis of strenghtened reinforced concrete member loaded to bending

Vepřek, Karel

January 2015

Design and manufacture of test elements for experimental testing laboratory. Testing of selected mechanical characteristics of test elements. Experimental analysis of test elements in the lab, creating a mathematical model in ATENA software and static calculation. Evaluation of experimental analysis and comparison with the values of numerical analysis. Graphic comparing the results of a final overall evaluation.

Interaktion von Betonstahl und textiler Bewehrung bei der Biegeverstärkung mit textilbewehrtem Beton

Weiland, Silvio

09 December 2009

Textilbewehrter Beton zur Verstärkung von Stahlbetonbauteilen ist neben den klassischen und etablierten Verfahren eine äußerst interessante Alternative, die die Vorteile der leichten Kohlenstofffaserklebeverstärkungen mit denen von Spritzbeton mit Bewehrung verbindet. Aus den theoretischen und experimentellen Untersuchungen in dieser Arbeit können wichtige Erkenntnisse zum gemeinsamen Tragverhalten von Betonstahl und textiler Bewehrung sowie zu den Auswirkungen der verbundbedingten Unterschiede abgeleitet werden. Mit den theoretischen Betrachtungen werden das gemeinsame Tragverhalten und der Einfluss des unterschiedlichen Verbundverhaltens auf die Zugkraftaufteilung gezeigt und qualifiziert. Die Behandlung der verbundbedingten Unterschiede bei gemischt mit Betonstahl und Textil bewehrten Zuggliedern ist analog dem Vorgehen bei gemischter Beton- und Spannstahlbewehrung bzw. Klebebewehrung mit Verbundbeiwerten darstellbar. Zur Ableitung entsprechender Kennwerte werden verschiedene Möglichkeiten diskutiert. Zudem wird eine vereinfachte Bemessung vorgeschlagen. Insgesamt sind die Ergebnisse ein wesentlicher Schritt auf dem Weg zur baupraktischen Anwendung von Textilbetonverstärkungen und ermutigen bereits zum umsichtigen Einsatz unter Beachtung der Sicherheitsaspekte. Noch offene Fragen und notwendiger Klärungsbedarf sollten die Wissbegier anregen und vertiefende Forschungsvorhaben und weitere experimentelle Untersuchungen ermöglichen. / Textile reinforcement represents an excellent alternative to existing techniques for strengthening of concrete structures, combining the benefits of lightweight fiber reinforced polymer strengthening with those of shotcrete with reinforcement. The theoretical and experimental studies in this thesis provide essential insights into the common load bearing behaviour of reinforcing steel and textile reinforcements as well as on the impact of the different bond characteristics of both types of rein-forcement. With the theoretical investigations, the combined load bearing behaviour and the influence of the different bond characteristics on distribution of the forces could be shown and qualified. The inter-action of both reinforcement types, taking into account the different bond characteristics, can be represented by bond coefficients analogous to the approach to mixed steel and pre-stressing-steel reinforcements. So as to derive the appropriate parameters, several options were discussed. Moreover, a simplified approach to design a TRC-strengthening-layer was proposed. Overall, the results are an essential step towards the practical application of textile reinforced con-crete for the strengthening of concrete structures and should already be encouraging the prudent use while considering the necessary safety aspects. Remaining issues and necessary clarifications should stimulate curiosity and in-depth research projects and allow further experimental studies.

info:eu-repo/classification/ddc/690

ddc:690

Interaktion gemischter Bewehrungen bei der Verstärkung von Stahlbeton mit textilbewehrtem Beton

Weiland, Silvio, Curbach, Manfred

03 June 2009

Textile Bewehrungen stellen eine hervorragende Alternative zu bisherigen Verstärkungsmethoden dar. Die Wirksamkeit von Textilbetonverstärkungen konnte bereits eindrucksvoll nachgewiesen werden. Um sowohl die vorhandene Bausubstanz, als auch die Verstärkung optimal auszulasten, ist es erforderlich, das Zusammenwirken beider Bewehrungsarten unter Berücksichtigung der unterschiedlichen Verbundeigenschaften zu beschreiben. In diesem Beitrag wird das gemeinsamen Tragverhalten von Betonstahl und textiler Bewehrung eingehend erläutert. Zur Veranschaulichung wird daher vor allem die Verbundtragwirkung und deren Einfluss auf gerissene Zugglieder genauer untersucht.

info:eu-repo/classification/ddc/620

ddc:620

Barriers to routine immunisation at Zwelihle Clinic, Overberg district, Western Cape

Hugo, Clair Patricia Bruns

08 May 2015

Background: Although immunisation services are provided free at all public health facilities in South Africa, immunisation coverage remains variable and disease outbreaks still occur. The coverage rate in the Overberg district is recorded as 75.8%, below the national target of 90% (Western Cape Government Provincial Treasury 2013:2). The researcher wanted to understand what the barriers to accessing immunisation services were and how this might relate to other primary health care services. Methods: The researcher visited 22 households and interviewed nine mothers who had brought their children to Zwelihle Clinic to be immunised and nine community health workers servicing the Zwelihle community in the Overberg district, Western Cape Province. Findings: A key finding is that the data does not reflect the actual situation – children in the community either are immunised at other facilities or have left the catchment area, hence strong relationships between the facility and the community and an electronic patient tracking system become important. Findings impacting access to services include the attitude of administrative staff, waiting times and the impact of migratory communities. Recommendations are made to improve the quality of data, provide training to administrative staff, improve patient education, reduce waiting times and improve the relationship between the clinic and the community in order to better track patient migration / Health Studies / M.A. (Public Health)

Health systems strengthening

Routine immunisation

Primary health care

614.470968736

Zwelihle Clinic -- Case studies

Achieving Composite Action in Existing Bridges : With post-installed shear connectors

Olsson, David

January 2017

The increased amount of traffic combined with higher traffic loads leads to many existing bridges needing strengthening in the future to ensure their expected lifespan. This means the bridge owners will be focusing more on strengthening projects and smart solutions will be crucial for preserving a healthy bridge stock. When strengthening existing non-composite bridges (with steel girder and concrete deck) one potential method is to achieve composite action by installing shear connectors. The post-installed shear connectors prevent slip between the steel girders and the concrete. The composite action will reduce bending stresses and deflection of the bridge, due to the increase in moment of inertia and relocation of the neutral axis. Different types of shear connectors can be used for achieving composite action and each type of connector has its own installation method. The biggest distinction between the methods is how the connectors gain access to the steel girder for installation and what technique is used when installing them. This thesis presents the theory behind composite action, the current methods used for achieving composite action on existing bridges and to what extent a bridge can be strengthened by composite action. The thesis also provides a status of the existing road bridge stock around the world. The four case studies examined in this thesis have used different post-installed shear connectors to manage different strengthening problems like weight restriction, fatigue life of shear connectors and a unique problem on the Pitsund Bridge where loud bangs appeared from the bridge when truck passed in the morning. For the case study on the Pitsund Bridge an interview was conducted that explains the entire procedure of the project, from the noise problem to how the installation of coiled spring pins was performed. The bridge over Lule River at Akkatsfallen consists of two steel girders and a concrete deck. This bridge is chosen as a real case study to determine to what extent a bridge can increase its capacity by achieving composite action. The calculations are performed in accordance with the Eurocodes on both non- and full-composite action and the result is compared to the other case studies.

Shear connector

Composite action

post-installed

strengthening

Pitsund Bridge

coiled spring pins

Skjuvförbindare

Samverkansbroar

förstärkningsarbete

Pitsundsbron

spiralbult

Early age autogenous deformation and cracking of cementitious materials – Implications on strengthening of concrete

Orosz, Katalin

January 2017

No description available.

concrete

mortar

strengthening

composites

shrinkage

autogenous deformation

alkali activated materials

alkali activated slag

Other Civil Engineering

Annan samhällsbyggnadsteknik

Incidence du renforcement à l'aide de plaques en matériau composite sur le comportement différé du mortier / Incidence of the reinforcement using composite material plates on the mortar creep and shrinkage mortar behaviour

Khadraoui, Fouzia

25 June 2009

Les ouvrages du génie civil ont une durée de vie limitée, et plusieurs d’entre eux nécessitent aujourd’hui une réparation, voire une reconstruction partielle. Ainsi le domaine des réparations et des renforcements en béton connaît depuis une dizaine d’années, une croissance importante dans le secteur du bâtiment et des travaux publics. Plusieurs études ont montré que le retrait et le fluage peuvent mener à de sévères problèmes liés à la durabilité. En effet, ces phénomènes peuvent être à l’origine de la fissuration, et même plus rarement de la ruine de l’ouvrage. Cette thèse a pour objectif d’étudier le comportement au retrait et au fluage d’éléments renforcés. Ce travail est divisé en deux parties principales. Dans la première partie, nous effectuons une étude expérimentale sur des éléments renforcés. Nous nous intéressons, dans la deuxième partie,à la modélisation du séchage afin de prévoir les transferts hydriques au sein du matériau, et le retrait de celui-ci. L’étude expérimentale vise à étudier l’effet du renforcement sur le comportement différé d’éprouvettes en mortier normalisé. L’approche théorique et numérique permet d’analyser les transferts hydriques et la diffusion de l’humidité au sein du matériau, et de calculer ainsi les déformations différées. Les essais expérimentaux montrent que le renforcement avec des matériaux composites réduit considérablement la déformation au fluage, mais n’apporte pas d’amélioration quant au retrait de séchage. / The works of civil engineering have one limited life span, and several of them require a repair today, even a partial rebuilding. Thus the field of the concrete repairs and strengthening knowssince ten years, a considerable growth in the sector of the building and public works. Several studies showed that the shrinkage and creep can lead to severe problems involved indurability. Indeed, these phenomena can be at the origin of cracking, and even more rarely of the ruin of the work. This thesis aims to study the shrinkage and creep behaviour of strengthened elements. This work is divided into two principal parts. In the first part, we carry out an experimental study on strengthened elements. We are interested, in the second part, to the modelling of drying in orderto envisage the hydrous transfers within material, and the shrinkage of this one. In the experimental study, we are interested to the strengthening effect on the differed behaviour of mortar specimens. The theoretical and numerical approach allows to analyze the hydrous transfers and the diffusion of humidity within material, and thus to calculate the differed deformations. The experimental tests show that the strengthening with composite materials reduced considerably the creep strain, but does not make improvement as for the shrinkage ofdrying.

Mortier

Matériau composite

Renforcement

Déformation

Fluage

Retrait

Sechage

Modelisation

Mortar

Composite material

Strengthening

Deformation

Creep

Shrinkage

Drying

Modelling